ES2278667T3 - ROOF OF BUILDING WITH BELT OF BOTTOM COVER FOR THE SAME. - Google Patents

Abstract

The roof of a building, with a support structure of compound plate elements and a top layer of roof cover elements such as tiles, comprises an intermediate multi-layered material sheet not preventing water vapor diffusion. This material sheet is provided on one side with an adhesive material such as mortar or glue which serves for attachment of the roof cover elements.

Description

Building roof with roof band bottom for it.

The invention relates to a building roof with a substructure of composite construction material in form of plates as precast concrete elements, a layer of material that covers the composite construction material and that is fixed in the composite construction material and elements of roof covering like tiles, which are fixed in the layer of material and to a lower cover band.

Roofs of buildings of this type are known, in in particular, in countries of southern Europe, for example, in Italy. He US-A-5,895,536 gives get to know a generic building roof with a substructure of composite construction material in the form of plates, a layer of material that covers the composite construction material and that is fixed in the composite construction material, as well as roof covering elements such as tiles, which are fixed in The material layer.

As composite construction material are used precast concrete elements, which extend between the upper edge of a side wall of the house and the easel of roof. Precast concrete elements are machined so that they can be arranged so that they overlap each other. Until now, a composite material is applied tarred cardboard for fusion welding.

In tarred cardboard for welding by Fusion roof roof elements are fixed as tiles. For provide an adhesion support for the mortar with which roof tiles are fixed in tarred cardboard for fusion welding, the side of tarred cardboard for oriented fusion welding towards the tiles it is provided, for example, with sand or presents Slate fragments.

The tiles are fixed with mortar on the cardboard tar for fusion welding, joining each tile individually or also only every fourth or fifth tile in the cardboard tar for fusion welding.

On a roof of this type of building consider an inconvenience that moisture cannot escape from inside of the building, since the tarred cardboard for welding by Fusion is impervious to water vapor and liquid water. Further, the tarred cardboard for fusion welding is presented usually with a thickness of 4 to 6 mm, so that it has a weight per square meter in the range of 4 to 6 kg / m2.

Starting from this, the invention has the objective of creating a building roof of the type indicated by principle in which a vapor permeability of water from the building roof assembly ensuring the functions of tarred cardboard for fusion welding used as known, and specify a lower cover band for it.

This objective is achieved on the roof of building of the type indicated at the beginning, because the layer of material It is made as a multilayer band, open to broadcast, with a weight per square meter of 100 g / m2 at 500 g / m2 and with a thickness of 0.4 mm to 1.5 mm, the band being applied in three layers and the outer layers being permeable both to the steam of water like liquid water and the inner layer being formed by a  water vapor permeable and liquid water impermeable layer and because both sides of the band are made as a support for adhesion for a fixing material such as mortar, with which roof cover elements can be fixed on the band.

Therefore, compared to the state of the technique, tarred cardboard for fusion welding planned there is replaced by the multilayer band, open to diffusion. The realization of both sides of the open band a diffusion as adhesion support makes the band open to the diffusion can assume the function of tarred cardboard to fusion welding with respect to the fixing of the elements of roof deck.

The band can be fixed in any way in the composite construction plates, for example, by a mechanical fixation It is also possible to apply the band during casting of precast concrete elements as an example for the composite construction material in the form of plates in a surface of precast concrete elements. Is It is recommended that this surface be one of the surfaces Large sides of precast concrete elements.

The band has a three layer structure, the outer layers may be formed by a layer of fabric or of nappa permeable to both water vapor and liquid water and the inner layer by a water vapor permeable and impermeable layer to liquid water.

The three layer structure is generated primarily because the inner layer must have an air layer thickness equivalent of less than 0.3 m. Possible materials for the layer Inside are polyurethanes, acrylates, loaded polyolefins, stretched. Layers of materials of this type have the property that they bear hardly any mechanical load. Because of that it is a support layer is necessary, so that the capacity of mechanical solicitation of the inner layer, open to the diffusion. These requirements result in two layers. The third layer, which is one of the outer layers, must meet the requirements of the formation of an adhesion support, for example, to mortar.

However, it is perfectly possible that it is planned a structure of more than three layers of the band, having to in any case the functions of the three layers previously fulfilled mentioned.

The equivalent air layer thickness of the outer layers is small compared to layer thickness of air equivalent to the diffusion of the inner layer. This last it is preferably in the range of 0.02 to 0.06 m.

The weight per square meter of the band is found in the range of 100 g to 500 g / m2. At first the lowest weight per square meter should be considered favorable possible of the band. However, as supplementary conditions It should be noted that, in the three-layer structure of the band, the support layer is thick enough to reinforce the layer open to diffusion and that the layer assigned to the elements  roof cover is thick enough to support adherence.

The layer assigned to the roof elements of roof may preferably be formed by a spinning sheet of propylene or polyester with a weight per square meter in the range from 30 to 150 g / m2. An adhesion support especially favorable, for example for mortar, is achieved by use polypropylene or polyester spinning nappa when you have a weight per square meter in the range of 80 to 150 g / m2.

Of the materials already indicated above a material of preferable diffusion is preferred polyolefin The layer open to diffusion can have a weight per square meter in the range of 10 to 200 g / m2. Do not However, in the realization of the layer open to diffusion there is especially important that the layer thickness of air equivalent to the desired diffusion (value s_ {d}).

The outer layer, which in the example of realization with three-layer structure of the band serves as a layer  support, it can be formed by a spinning nappa of polypropylene or polyester with a weight per square meter in the range of 60 to 160 g / m2.

The support layer is preferably made as an adhesion support for a fixing means such as a glue, in particular, a liquid glue for fixing the band in the composite construction material. In this case, the method previously described of the mechanical fixation is replaced by a union stuck. In view of the field of application in the area of roofs, the tail should have a lifespan of several decades.

The queue used in the embodiment example Lastly indicated should be applied in a very thin layer. In addition, it is advantageous to use the tail in the form of points or preferably in the form of cords. It must be guaranteed that the tail does not impair the effect of the layer open to diffusion, it is that is, the tail must be used in such a way that the opening to the diffusion of the roof of building depends mainly on the layer Open to broadcast.

The thickness of the band can be found in the range between 0.4 and 1.5 mm, so that the whole band is fundamentally lighter than tarred cardboard for fusion welding used so far in the state of the technique.

Next, the invention will be explained more in detail with the help of an embodiment example.

An example of realization of a roof of building according to the invention has the following structure seen from the inside out.

The inner side of the building roof is formed by precast concrete elements, which are arranged side by side on one side of the roof and that extend from the upper edge of a house wall to the roof stand.

On the outer sides that are formed after the arrangement of the precast concrete elements different cords of a glue are applied
polymer based.

A cover strip is glued by the tail bottom, consisting of two polypropylene spinning sheets exterior and an inner polypropylene layer, open to the diffusion in precast concrete elements. The layer open to diffusion can be, in particular, a sheet of loaded and stretched polypropylene.

The napa layer oriented towards the elements Precast concrete has a weight per square meter of 80 g / mm2. The polypropylene layer has an s_ {d} value in the range from 0.02 to 0.06 m. The layer of napa not oriented towards precast concrete elements, formed by a nappa of Polypropylene spinning, has a weight per square meter of 80 g / m2. In another example of embodiment, in which they must be fulfilled  even more stringent requirements for the realization of a support of adhesion, the layer of napa not oriented towards the elements precast concrete, formed by a spinning sheet Polypropylene, has a weight per square meter of 120 g / m 2, while the other layers of the cover band lower correspond to the embodiment above discussed.

The opening to the diffusion of the band of Bottom cover depends on the inner layer of polypropylene polypropylene sheets being made in such a way that grab the band.

In the outer polypropylene napkin is applied mortar or a mixture of sand / glue or just such glue so that the roof tiles that form a roof cover are fixed by the lower cover band on the elements Precast concrete.

The cards must present a certain superficial fibrous constitution that guarantees that the sheets can hold on to mortar, sand / glue mixture or glue and to the glue applied to the precast concrete elements. The sheets are thermally compacted by points, that is, the Napa fibers are thermally fixed by points on others. Alternatively, you can also use cards that are mechanically compacted, that is, sheets that have been processed mechanically so that they have a higher density.

The lower cover band can be manufactured as follows:

The two outer polypropylene sheets are join the polypropylene layer open to diffusion by means of a heat treatment, by ultrasound or by glue.

Claims (8)

1. Building roof with

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           a substructure of composite building material in form of plates, as prefabricated elements of hormi- Gon

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           a layer of material that covers the composite material of construction and that is fixed in the composite material of construction and

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           roof covering elements such as tiles, which are fixed in the material layer,

characterized because

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           The material layer is made as a multilayer band, open to broadcast, with a weight per square meter of 100 g / m 2 at 500 g / m 2 and with a thickness of 0.4 mm to 1.5 mm, presenting the band a three layer structure and being permeable outer layers to both water vapor and water liquid and the inner layer being formed by a layer permeable to water vapor and impermeable to liquid water and because both sides of the band are made as adhesion support for a fixing material such as mortar or glue, with which the elements Roof cover could be fixed on the band.

2. Building roof according to claim 1, characterized in that the inner layer has an air layer thickness equivalent to diffusion of less than 0.3 m and the air layer thickness equivalent to diffusion of the outer layers is small in comparison with the thickness of the air layer equivalent to the diffusion of the inner layer. 3. Building roof according to claim 1 or 2, characterized in that the thickness of the air layer equivalent to the diffusion of the inner layer is in the range of 0.02 to 0.06 m. 4. Building roof according to claim 1, characterized in that the layer assigned to the roof covering elements is formed by a spinning sheet of polypropylene or polyester with a weight per square meter in the range of 30 to 150 g / m ^ {2}. 5. Building roof according to one of claims 2 to 4, characterized in that the layer open to diffusion is formed of a polypropylene or polyurethane material. 6. Building roof according to one of claims 2 to 5, characterized in that the layer open to diffusion has a weight per square meter in the range of 10 to 200 g / m2. 7. Building roof according to one of claims 2 to 6, characterized in that the layer assigned to the composite construction material is made as a support layer for the layer open to diffusion. 8. Building roof according to claim 7, characterized in that the support layer is formed by a spinning sheet of polypropylene or polyester with a weight per square meter in the range of 60 to 160 g / m2.