CZ37309U1 - Roof or facade covering - Google Patents

Description

Roof or facade covering

Field of technology

The technical solution concerns roofing such as tiles, shingles, templates, provided with a top layer of copper foil.

Current state of the art

There are known solutions where metal, for example, copper or aluminum foil forms the top layer of the roof or facade covering. They are, for example, documents US 20210324631 A1 and US 6877282 B2. The solution described in US 20210324631 A1 describes a material for a roof covering, where the core is formed by a material such as glass fiber, polyester, cotton, cellulose, acrylic, carbon fiber, metal, rubber, etc. The top layer is formed by, for example, plastic particles, paint, wood, ceramic materials, composites, etc. or also metal particles or a metal layer. US 6877282 B2 describes ductile roofing sheeting in the form of a plate with a laminate structure, which is coated on at least one side with a layer of heavy metal, with a density greater than 3.5 g/ml. Specifically, the metals barium, iron, silver and copper are named.

Furthermore, many solutions are known where copper or other metal foil is laminated to bitumen and similar roof coverings. For example, US 4396665 A, as well as CA 1168971 A, describe in particular a bitumen roofing material on which a thin layer of metal is applied, namely aluminum. A protective layer of synthetic polymer is also applied to the metal layer. The mentioned layers are connected to each other by a layer of adhesive, although the natural adhesion of the bitumen core should normally be sufficient to connect to the metal layer. Additional protective layers can also be applied.

Document CN 109878179 A describes a composite roof covering with an asphalt base and a metal foil on the surface, this foil being attached to the substrate with adhesives. The underside of the shingle is provided with a protective layer. A protective film is also applied to the metal.

The main disadvantage of these solutions US 20210324631 A1, US 6877282 B2, US 4396665 A, CA 1168971 A, CN 109878179 A is that the metal foil is not bent under the template. Therefore, it does not protect the edge of the template, and in addition, the film is not so firmly mechanically connected to the template or shingles, it can peel off at the free edges.

Some patents contain a solution with a bent edge of the foil, but the edge bent below the template is integral.

The solution according to US 1864055 A primarily uses lead, it also mentions zinc or aluminum, not copper foil. The basis is a solid, inflexible, but slightly compressible board made of fibrous cellulose material or similar material with good thermal insulation. The thickness of the metal foil used is 0.003 inches. The foil is bent down around the edges of the template.

DE 2031578 A1 describes a solution where the foil, especially copper foil, is bent ideally around the edge to the bottom edge of the roof template. The templates are made of cement, asbestos cement, etc. One of the main points of the patent is the use of a non-solidifying adhesive, for example bitumen, which will allow the relative movement of the bonded layers and thus prevent damage to the template due to the different thermal expansion of the materials used.

The disadvantage of this solution US1864055A, DE2031578A1 is that it mentions the use of older types of materials such as fiberboard, asbestos cement, not a solution for modern bitumen or plastic roofing.

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Embossed, for example corrugated, metal foil, especially aluminum, is presented in patent US 2856647 A, where this foil is applied to templates made of, for example, felt impregnated with asphalt, insulating boards or plywood. Since the adhesive connection itself does not appear to be sufficient, the edges of the metal foil are additionally bent around the underlying template. The sheet has three inverted edge flanges and a fourth edge flange facing down.

The main disadvantage of these solutions US 1864055 A, DE 2031578 A1, US 2856647 A is that the bent edge of the film is integral. Therefore, there is no saving of material as in the proposed solution, and the edge is not as pliable and easily adaptable as the proposed solution.

The solution where the metal foil is bent around the edges of the facade template is in the documents US 3174191 A, CN 106401114 A.

File US 3174191 A describes facade insulation panels of rectangular shape made of solid material. The panel is covered with a sheet of material with a metal foil, specifically an example is described where an aluminum foil is glued on both sides to a solid paper base. The facade panel is covered with a sheet of this material, this sheet material is dimensionally adapted to the underlying panel. The sheet material can be bent in various ways around the base panel downwards, or, for example, under the adjacent panel on the facade cladding.

CN 106401114 A describes a facade panel with metal foil that excels in aesthetic and thermal insulation properties. The composition of the panel from the outer outer layer is as follows: metal foil, adhesive, inorganic non-flammable board, adhesive, insulating layer, adhesive, aluminum foil. The panels can be easily laid next to each other, structural elements are made on the edges that fit well together. These solutions refer to facade panels, not roofing. The main disadvantage is again the integrity of the curved edge of the foil. The edge of the foil is therefore not as pliable and adaptable as the proposed solution, there is no saving of material.

In other solutions, the metal foil is bent only around one, after laying on the roof, the lower edge of the roof template, see document US 632691 A, or of the cardboard strip, document US 3137972 A.

Document US 632691 A describes a solution of metal sheets for use on old or new shingles. Sheet metal, tin or tinned steel, is applied to the shingle so that it covers its entire visible part and is also bent under the shingle or under another row of shingles.

Document US 3137972 A describes a roofing material - a cardboard strip - with a surface of embossed metal foil. The metal foil on the lower, exposed edge of the cardboard strip after laying it on the roof is bent under the strip so that the edge of the cardboard is protected. After laying on the roof, the lower edge of the higher strip overlaps the upper edge of the lower strip. The strips are still glued with adhesive at the point of overlap and the seam is covered with epoxy resin to ensure impermeability to water. Embossed, corrugated foil is used, where embossing strengthens this foil and makes it more resistant to mechanical stress.

The disadvantage of these solutions is that the metal foil is not bent around all the edges of the roof template. Therefore, only the edges of the template exposed to the weather after laying the covering on the roof are protected. The film is not so well mechanically connected to the underlying material. It may flake off at the edges.

Document US 1852169 A presents a solution where the bitumen roof template is selectively metallized only in the part that is visible in the final stage - after laying on the roof - with possible overlaps to the edge and below. However, the production process is quite different, it is not a coating with a metal foil. Bitumen shingle has a base made of felt or similar material, which is impregnated with a waterproofing mixture, for example asphalt. This base is then provided with a layer of asphalt on both sides. Granular material, such as slate, is poured onto one side of the material and pressed into the asphalt. The material is cut to the desired shape of the shingles. On the other hand, the shingle, which is without granulate, is still available

- 2 CZ 37309 U1 of warm asphalt, bronze powder applied to the required places. The shingle is then electrolytically plated only in these required conductive parts. A similar solution is offered by document GB 226528 A, which, however, deals directly with the method and device for electroplating an already prepared and selectively conductive template. The semi-finished template with conductive surfaces is inserted into the electrolyzer, which also includes a separator. The patent describes in detail the electrolyzer and the plating of the template, which is, however, a completely different system than the one used for the electrolytic production of foil in our case.

The disadvantage of these solutions is the production process, where the individual roof templates must first be selectively coated with bronze powder before the metal layer is applied.

The solutions presented in the documents CN 100491664 C, CA 2536630 A1 and US 8551601 B2 are based on the fact that a metal foil is first laminated on the asphalt core, which is also bent over the edge and a layer of granulate, stone, is applied to it using resin. The metal foil can be steel, aluminum, copper, zinc, tin, zinc-aluminum alloy or galvanized steel. The thickness of the metal layer is 0.015 to 1 mm.

The essence of the technical solution

The above disadvantages are removed by the roof or facade covering according to the presented solution. This is, for example, a bag, a shingle or a template. This covering consists of a surface reinforcement provided with a layer of copper foil. The essence of the new solution is that the copper foil has teeth of any shape on its sides. This copper foil is closely connected by its surface to the surface reinforcement on its upper surface and on its side edges. The edges of the copper foil with the formed teeth are bent downwards to the underside of the flat reinforcement and are firmly connected to it.

The teeth can have different shapes, for example triangular, trapezoidal, semicircular, square or rectangular.

The teeth can be arranged symmetrically or asymmetrically with each other with different spacing, which is chosen due to the desired cohesion with the surface reinforcement.

In an advantageous embodiment, the surface reinforcement is made of material such as recycled plastic, polymer film, asphalt, bitumen. It is also advantageous if the copper foil is produced electrolytically from copper scrap.

Compared to solutions without bending the edges of the metal foil, the proposed solution has the advantage that the copper foil also protects the edges of the roof or facade covering, and in addition, the foil adheres better to the surface reinforcement. So, even if the lamination were to break or stick to the surface, the foil will still stick to the template thanks to the curved edges. Another advantage of the proposed solution compared to known solutions with bent edges of the metal foil is in particular the design of the edge of the copper foil, which is not at all but jagged. This will both save material and better adapt the shape of the surface reinforcement thanks to the flexible edge, so the foil will not curl at the edges. In addition, this solution will fundamentally facilitate the application of the resulting product during the laying of the covering. The curved edges of the anchoring elements formed by the teeth ensure not only long-term mechanically stable anchoring of the surface reinforcement and copper foil, but also allow easy division and shaping of the covering during the implementation of details such as roof ends, gutters, attics, edging, gutters and so on.

An important feature of the designed covering composition is the fact that it enables both the classic form of laying the covering by nailing it to the formwork, as well as the welding of individual templates or template strips between and on top of each other. At the same time, thanks to the proposed solution, it is possible to implement reliable transitions between different roofing technologies, such as the roofing proposed here and welded polymer or asphalt roofing films and strips.

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Clarification of drawings

Examples of the implementation of roof or facade covering according to the presented solution are shown in the attached drawings. Giant. 1 shows the process of implementing a roof or facade covering. In Fig. 2 is an example of the final assembly of surface reinforcement - copper foil, viewed from below on the covering and in Fig. 3 shows different types of formation of teeth on copper foil.

Examples of implementing a technical solution

The roof covering, for example a tile, shingle, template, is formed by a surface reinforcement 1 of recycled plastics, polymer foils, asphalt, bitumen, or other suitable materials. This planar reinforcement 1 is provided with a copper foil 2, which has teeth 3 formed on its sides. The surface of the copper foil 2 is tightly connected to the planar reinforcement also on its upper surface and on the side edges. The edges of the copper foil 2 with the formed teeth 3 are bent downwards to the lower side of the planar reinforcement i and are firmly connected to it. The teeth 3 of the edge of the copper foil 2 can be made in different shapes, for example, triangular, trapezoidal, semicircular, rectangular, square and the like. Regarding the placement of the teeth 3, various variants are possible, which are chosen so that the teeth 3 in the assembly with the surface reinforcement hold well and thus a compact material with long-term mechanical stability is formed - the cohesion of the copper foil and the surface reinforcement. Most often, however, it will be a symmetrical distribution.

During the realization of the roofing, the copper foil 2 can be laminated to the surface of the surface reinforcement 1 of the roof or facade covering, such as shingle or template, with the help of pressure and heat. The formed teeth 3 of the edges of the copper foil 2 will be mechanically bent downwards along the edges of the surface reinforcement 1 of the given covering and ideally laminated again to the substrate using pressure and heat.

An option is that the surface reinforcement 1 of the roof or facade covering of the template, made of recycled plastics, polymer foils, asphalt strips or other suitable materials, will be implemented directly into the mold lined with copper foil 2. The corresponding mold is lined with copper foil 2, the material for surface reinforcement i and in the next step, the plastic surface reinforcement is pressed and the teeth 3 of the copper foil 2 are then pressed into the still warm and malleable plastic substrate. The roof or facade covering is therefore pressed, laminated, or connected directly during its production process.

Industrial applicability

The above-described roof or facade covering with copper foil on the surface is used by manufacturers of such coverings in connection with producers of copper foils and processors of copper scrap, in operations where copper waste is generated in the production process.

Claims (10)

1. Roof or facade covering, for example a tile, shingle, template, consisting of a flat reinforcement (1) provided with a layer of copper foil (2), characterized by the fact that the copper foil (2) has anchoring elements in the form of teeth (3) on its sides ) of any shape, and this copper foil (2) is tightly connected by its surface to the flat reinforcement (1) on its upper surface and on the side edges, while the edges of the copper foil (2) with formed teeth (3) are bent downwards to the lower side surface stiffeners (1) and are firmly connected to it. 2. Roof or facade covering according to claim 1, characterized in that the teeth (3) have a triangular shape. 3. Roof or facade covering according to claim 1, characterized in that the teeth (3) have a trapezoidal shape. 4. Roof or facade covering according to claim 1, characterized in that the teeth (3) have a semicircular shape. 5. Roof or facade covering according to claim 1, characterized in that the teeth (3) have a rectangular shape. 6. Roof or facade covering according to claim 1, characterized in that the teeth (3) have a square shape. 7. Roof or facade covering according to claim 1 and any one of claims 2 to 6, characterized in that the teeth (3) are arranged symmetrically to each other. 8. Roof or facade covering according to claim 1 and any one of claims 2 to 6, characterized in that the teeth (3) are arranged with different pitches. 9. Roof or facade covering according to claim 1 and any one of claims 2 to 7, characterized in that the surface reinforcement (1) is made of material of the type recycled plastics, polymer films, asphalt, bitumen. 10. Roof or facade covering according to claim 1 and any one of claims 2 to 7, characterized in that the copper foil (2) is made of copper scrap. 3 drawings