RU2426845C1 - Metal roof for frame buildings - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: metal roof comprises cassettes fixed to crossbars of frames, made of a metal sheet with L-shaped ribs bent at the opposite long sides, and heat insulation arranged in the cavity of cassettes. Inside the cassettes there are stiffening elements of a channel-like section, walls of which are joined with the walls of the cassette ribs, above the cassette rib shelves there is an additional layer of heat insulation and a profiled deck, joined with rib shelves and stiffening elements via a layer of heat insulation with fastening elements. At the same time channel-like stiffening elements are arranged along the cassette ribs and along the length are joined in the span between crossbars of transverse frames.

EFFECT: reduced metal intensity of roof structure.

9 cl, 5 dwg

Description

The invention relates to the field of construction, in particular to the construction of a metal multilayer roof for sloping or flat roofs of frame buildings for various purposes.

Known metal roofing, consisting of an outer outer layer made of profiled flooring with trapezoidal corrugations, and an inner layer formed by profiles of cassettes with thermal insulation laid in them in the form of mineral wool plates. The ribs of the cassettes are Z-shaped on one long side and C-shaped on the opposite side, while the Z-shaped profile of one cassette covers the C-shaped profile of an adjacent cassette, forming a common edge of two adjacent cassettes, located at an angle of 90 ° to the trapezoid corrugated profiled flooring (DE 10341636, 2005).

To ensure the rigidity of the thin external profiled flooring, the distance between the common edges of adjacent cassettes, which are supports for the outer sheet, should be small, which increases the material consumption of the roof.

The closest analogue to the claimed invention is a metal roof for flat or pitched roofs of a frame building, consisting of transverse frames, including cassettes attached to the frame beams with short sides of the cassette, made of metal sheet with L-shaped ribs bent on the long sides, and thermal insulation placed in cavity of cartridges (RU 56420 U1, 2006).

Despite the advantage of the known roof design, due to the use of cassettes that simultaneously carry the functions of girders and the enclosing structure, the possibility of overlapping by cassettes of large spans is very limited due to the deformability of a thin sheet of cassettes. The support of the cassettes on the crossbars of the transverse frames according to a single-span scheme leads to an increased consumption of metal.

The objective of the present invention is to increase the load-bearing capacity of the cassettes while increasing their resistance to deformation and reducing the metal consumption of the roof by changing the design scheme.

This problem is solved due to the fact that in a metal roof for flat or pitched roofs of a frame building, consisting of transverse frames, including cassettes attached to the frames with short sides of the cassette, made of metal sheet with L-shaped ribs bent on long sides, and thermal insulation, placed in the cavity of the cassettes, inside the cassettes the stiffening elements of the channel-shaped section are installed; when connecting cassettes in the span of the building, the walls of the L-shaped ribs of adjacent cassettes are connected to each other and to the walls of the stiffeners, and their shelves are overlapped and cover the shelf of one of the stiffeners of the adjacent cassette, an additional layer of thermal insulation is sequentially laid on top of the shelves of the edges of the cassettes and a profiled sheet connected to the shelves of the ribs of adjacent cassettes and the shelf of the stiffener, while the channel-shaped stiffeners are supported on the crossbars of the frames and joined together in the span between GOVERNMENTAL frames.

In addition, in the metal roof at the points of support of the cassette on the crossbars and in the middle of its span, bent profiles are installed, for example, in the form of a corner, perpendicular to the stiffeners.

The thickness of the stiffeners exceeds the thickness of the cassette sheet.

The density of the insulation placed inside the cassette is lower than the density of the additional layer of insulation.

Channel-shaped shelves of stiffeners are made of different sizes.

With pitched roofs, the shelves of channel-like stiffeners of adjacent cassettes in the roof ridge are located in opposite directions and face the eaves of the roof, and the profiled sheet and thermal insulation are connected to the shelf of each of the edges of adjacent cassettes adjacent to the ridge and the shelf of the stiffener.

The cassettes are fastened to the frame structures using self-tapping screws or dowels.

The joints of the cassettes on the supports are glued with aluminum tape, and gaskets are installed in the horizontal joints.

The invention is illustrated by drawings, which depict:

figure 1 is a symmetrical profile of the cartridge;

figure 2 is an asymmetric profile of the cartridge;

figure 3 - connection of adjacent cassettes with laid thermal insulation;

figure 4 is a transverse section of the roof in the span of the building based on the crossbar of the frame;

figure 5 is a transverse section of the ridge of the roof.

The metal multilayer roof consists of cassettes attached to the shelves of the crossbars 1 of the transverse frames of the frame building.

Cassettes can be made of two types: in the form of symmetrical 2 and asymmetric 3 profiles in cross section.

Both types of cassettes 2 and 3 are made of thin metal sheet 4 with L-shaped ribs 5 bent along its long sides with overhangs 6 at the ends of the shelves 7 ribs, which ensure the fixation of thermal insulation 8 located in the cavity of the cassette.

The depth of the cassette profile is taken on the basis of the heat engineering calculation for a specific type of building and construction area.

For flat roofs and for the span of pitched roofs, an asymmetric profile of cassettes 3 is used, in which the shelves 7 of the L-shaped ribs 5 are turned in one direction so that when the cassettes are connected, the shelves of their adjacent ribs are overlapped, overlapping each other, i.e. . on one long side of the sheet 4 of the cassette the shelf of the L-shaped rib is covered, and on the opposite side of the sheet it is covered.

In pitched roofs on both sides of its ridge, cassettes 2 with a symmetrical profile are installed, in which the shelves of 7 L-shaped ribs are turned towards each other. In the ridge zone, the shelves of 7 adjacent ribs of the two cassettes are facing in opposite directions to the eaves of the roof and do not overlap each other.

To increase the load-bearing capacity of the roof inside the cassette along its ribs set stiffening elements 9 having a channel shape. At the ends of the upper and lower shelves of the stiffening element 9 there are bends directed towards each other, which, in the same way as the overhangs of the cassette shelves, fix the heat insulation.

In a cassette with a symmetrical profile, channel-shaped stiffeners 9 are installed in its open cavities, limited by L-shaped ribs 5 and adjacent parts of the sheet 4, while the walls 10 of the stiffeners 9 are in contact with the walls of the ribs of the cassettes, and their upper shelves 11 are placed under the shelf L-shaped cassette ribs.

In a cassette 3 with an asymmetric profile, channel-shaped stiffeners 9 are installed on one side of the cassette in its open cavity described above, and on the other hand, with the wall of the stiffening element 10 adjacent to the wall of the rib 5 of the cassette, while the shelves of the stiffening element and ribs 5 are deployed in opposite sides.

In the span of the building, the walls 10 of channel-shaped stiffening elements 9 are connected by self-drilling screws 12 or combined rivets with the walls of the pair L-shaped ribs of adjacent cassettes, and their upper 11 and lower 13 shelves are connected by the same fastening elements 12, respectively, with the shelves 7 of the pair of ribs of adjacent cassettes and a sheet four.

In the ridge of the roof, the stiffeners are connected to the wall and the shelf of a single L-shaped rib of the cartridge and to its sheet.

The height of the stiffening elements is equal to the distance between the inner surfaces of the overlapping shelf flange of the cassette rib and its sheet.

For the operation of the ribs of the cassette, which perform the function of running the roof, according to a continuous diagram, the channel-shaped stiffeners located along the ribs of the cassettes are joined along the length in the span between the crossbars.

Thermal insulation 8, placed inside the cassettes, is made mainly in the form of heat-insulating mats with a density of 15-20 kg / m ³ .

An additional layer of thermal insulation 14 with a density of 70-100 kg / m ³ exceeding the density of thermal insulation 8 laid in the cassette is laid on the shelves 7 of the edges of the cassettes. An additional layer of thermal insulation 14 eliminates cold bridges in the contact zone between the metal surfaces of the upper profiled sheet and the surface of the ribs of the cassettes, which improves the thermal insulation properties of the roof.

The joints of the insulation located inside the cassettes are offset relative to the joints of the additional insulation.

On top of the additional insulation layer 14, a profiled galvanized sheet 15 is laid, coated with a polymer material and attached to the shelves of paired ribs of adjacent cartridges and the shelves of the stiffener 9 through an additional layer of thermal insulation with fasteners, for example, self-drilling screws 16.

Instead of a profiled sheet, a waterproofing membrane coating can be used.

To increase the stability of the metal sheet of the cartridge and reduce its sagging on the supports and in the middle of the span of the cartridge, a bent profile is installed in the form of a corner 17 located perpendicular to the stiffener and resting on it.

The vertical walls of the L-shaped ribs of the cassette and its sheet are made with corrugations 18, mainly of a trapezoidal shape, which on the one hand increase the rigidity of the cassette, and on the other hand, the grooves of the corrugations at the junctions of the cassette sheets with the shelves of the crossbars and with the vertical walls of the edges of the adjacent cassettes laying the seal 19, ensuring the tightness of the joints. Tightness of vertical joints is ensured by gluing aluminum tape.

When the cartridges are bent under the operating load, the upper shelves of the stiffeners experience compression and the lower shelves under tension, which allows the shelves of the cartridges to be different from the upper 11 of the less developed shelf and thereby reduce the material consumption of the cartridge.

The thickness of the cassette sheet on the supports is higher than the thickness of the cassette sheet in the span of the building, and the thickness of the stiffening element exceeds the thickness of the cassette sheet.

The proposed roof structure has high thermal properties and high bearing capacity.

The installation of the roof is as follows.

First remove the protective film from the cassette. At the junction of the cassette to the crossbar, a sealant is glued to the cassette.

An initial cassette profile is installed on the roof ledge, then stiffeners are installed inside the cassette along its ribs, attaching them to the frame crossbar with self-drilling screws. Two horizontal cassette seals are glued into the trapezoidal corrugations of the vertical walls of the ribs of the cartridge. The next cartridge is placed close to the wall of the previous cartridge and fastened with it with self-drilling screws or combined rivets with a step of 300 mm.

After mounting the cassettes, the horizontal and vertical joints on the supports are carefully sealed with aluminum tape.

Laying of heat-insulating mats (plates) is made close to each other so that there are no voids in the seams.

The outer layer of heat-insulating mats is installed with the side pasted over with fiberglass. The joints of the plates are sealed with a self-adhesive windproof film. The fastening of insulation boards (insulation) to the ribs of the cassette profile is made by self-drilling screws of 4 pcs. on the stove. The joints of the insulation plates of the first and second layers to exclude cold bridges are performed with an offset.

Claims (9)

1. A metal roof for flat or pitched roofs of a frame building, consisting of transverse frames, including cassettes attached to the frame beams with short sides of the cassette, made of metal sheet with L-shaped ribs bent on the long sides, and thermal insulation located in the cavity of the cassettes, characterized in that inside the cassettes there are installed stiffness elements of a channel-shaped section; when connecting cassettes in the span of the building, the walls of the L-shaped ribs of adjacent cassettes are connected to each other and to the walls of the stiffeners, and their shelves are overlapped and cover the shelf of one of the stiffeners of the adjacent cassette, an additional layer of thermal insulation is sequentially laid on top of the shelves of the edges of the cassettes and a profiled sheet connected to the shelves of the ribs of adjacent cassettes and the shelf of the stiffener, while the channel-shaped stiffeners are supported on the crossbars of the frames and joined together in the span between GOVERNMENTAL frames. 2. The metal roof according to claim 1, characterized in that at the points of support of the cassette on the crossbars and in the middle of its span, bent profiles are installed, for example, in the form of a corner, perpendicular to the stiffeners. 3. The metal roof according to claim 1, characterized in that the joints of the insulation located inside the cassettes are offset from the joints of the additional insulation. 4. The metal roof according to claim 1, characterized in that the thickness of the stiffening elements exceeds the thickness of the cassette sheet. 5. The metal roof according to claim 1, characterized in that the density of the thermal insulation placed inside the cassette is lower than the density of the additional layer of thermal insulation. 6. The metal roof according to claim 1, characterized in that the channel-shaped shelves of the stiffeners are made of different sizes. 7. The metal roof according to claim 1, characterized in that, for pitched roofs, the shelves of channel-like stiffeners of adjacent cassettes in the roof ridge are located in opposite directions and face the roof eaves, and the profiled sheet and thermal insulation are connected to the shelf of each of the edges adjacent to the ridge cassettes and shelf stiffener. 8. The metal roof according to claim 1, characterized in that the fastening of the cassettes to the frame structures is carried out using self-tapping screws or dowels. 9. The metal roof according to claim 1, characterized in that the joints of the cassettes on the supports are glued with aluminum tape, and sealing gaskets are installed in the horizontal joints.

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