HU219641B - Roof tile formed of a sheet metal - Google Patents

Abstract

The metal roof plate, which serves primarily to clean and keep the roofs of buildings free from vegetation or environmental pollution, is made of metal that reacts with moisture in a compound, and has a structured reaction surface (2) with prominent bumps (3) and openings (4), where the openings (4) of the bumps (3) and the flow of moisture are located opposite the direction (A). Therefore, a larger part of the water flowing from the roof along the reaction surface (2) reaches the lower side of the metal roof plate (5), which increases the efficiency. ŕ

Description

FIELD OF THE INVENTION The present invention relates to a metal roof panel for cleaning and maintaining roofs of buildings, in particular from vegetation or environmental contamination, which is formed by cutting out a metal sheet reacting with moisture in a roof panel compound and having a structured reaction surface with prominent bumps and openings.

From DE 4413119 C2 a similar solution is known for protecting roofs of buildings against the establishment of plants, especially mosses and lichens. The production of metal roof panels from sheet material by cutting allows the metal roof panel to be shaped in a simple manner to conform to the shape of the roof tiles. In particular, a lower rounding can be provided at the same time as the cutting process, so that a simple copper plate has an optically attractive design and the reaction space available between the two rows of roofing slabs can be largely utilized. In addition, it is easy to fit a metal roof tile in the same appearance as the roof tile as it can be easily inserted between the roof tile rows.

The production of metal roof panels by cutting, as opposed to a plain copper sheet, provides a simple way of forming a flange around the outer edge of the roof panels; this flange delays the rapid drainage of moisture and thus increases the reaction time between the moisture and the metal roof panel. Bumps are formed on the downward side (reaction surface) of the metal roof plate in the downstream direction of the water; therefore, runoff moisture takes a relatively long distance and at the same time distributes well on the roof surface. In addition, at the highest points of the protruding bumps, slit-shaped openings may be formed at the same time as the cut-off, allowing the liquid to react with the metal surface on the underside of the metal roof plate. This doubles the reaction surface so that high efficiency can be achieved by significantly reducing the number of rows covered. However, the slit-shaped, narrow openings allow only relatively little moisture to penetrate the underside of the metal roof panel.

DE-A-4130365 discloses that over the years, to protect against moss on the roof, copper sheets are placed in the visible part of the roof so that they come into contact with rainwater flowing under the copper sheets over a relatively large surface of the roof. Meanwhile, rainwater releases certain components, mainly ions, from the copper sheets, which hinder the settling of plants, especially mosses and lichens, on roof tiles made of burnt or concrete. Preferably, the copper sheets are made in the form of a tile and placed along the roof saddle to allow moisture to flow from them throughout the roof surface. In an alternative, instead of the hard-to-produce tapered ridge tiles, simple strip-shaped copper plates are placed around the roof saddle.

The disadvantage of the above is that the bending work required to adapt the spine tiles is very expensive. Although the alternative is relatively simple with a strip-shaped copper sheet placed around the roof saddle - the sheet is removed from a roll - there is only a small effective surface between two successive rows of tiles, so a large number of copper strips need to be inserted. This, in turn, also increases costs. In addition, such copper strips, especially on existing roofs, are difficult to install later, since copper strips need to be inserted and secured between two rows of roof tiles, which requires a greater number of roof tiles to be removed according to the length of copper strip used.

It is an object of the present invention to provide a metal roof panel for cleaning and maintaining the roofs of buildings that provides improved efficiency and serviceability.

According to the present invention, the object is solved by a metal roof plate having openings in the bumps facing the direction of the drainage of moisture.

Due to the fact that the bump openings face the drainage direction of the water, ie towards the roof ridge, water penetration to the underside of the metal roof plate is improved. This results in better wetting and better utilization of the underside of the roof panel, thus increasing the cleaning effect on the roof of the building. Relatively much moisture remains on the underside of the metal roof panel, which enhances the release of metal ions.

In addition, the onlooker on the ground sees the metal roof panel smoother because the bump openings are on the other side. The openings facing the drainage direction of the water cause hardly any burrs in the cutout, which reduces the risk of injury and improves handling even without costly post-treatment.

Further preferred embodiments are contained in the dependent claims. Of particular importance is the pre-oxidation of the metal roof panel by ultrasonic cleaning and / or degreasing with a chemical cleaner such as alkali or acid. This activates the copper ions on the surface of the metal roof slab, so that the effect of the metal roof slab can be achieved immediately after being placed on top of the building. Preferably, this pre-oxidation is carried out along with the removal of the cylinder oil that is otherwise present on the copper strip on both the top and bottom sides of the metal roof panel.

Simultaneously with the cut-out, a rib is pressed on the top side of the metal roof plate to support the roof tile above. The resulting narrow space allows for ventilation between burnt or concrete tiles covering the roof of the building.

The present invention will now be described in more detail with reference to a preferred embodiment and a drawing. In the drawing it is

Fig. 1 is a plan view of a metal roof plate shaped like a beaver-tile, a

Fig. 2 is an enlarged cross-sectional view of a metal roof panel

1 through the bottom edge of FIG

Figure 3 is an enlarged detail of the top view of Figure 1, and Figure

Figure 4 is a longitudinal section illustrating the installation of a metal roof slab between two rows of roof tile (burnt or concrete).

HU 219 641 Β

The metal roof panel shown in Fig. 1 is a top view with a circumferential rim 1 (see also Fig. 2) and has the shape of a so-called beaver-tail roof panel. The metal roof plate is cut out of sheet material, in particular copper plate, along the circumferential edge 1, and the circumferential edge 1 is formed during the cutting process. When the metal roof panel is marked with crosses (Fig. 4), a large number of protrusions 3 (about 150 per metal roof panel) are pressed into and out of the reaction surface 2 on the lower half of the reaction surface 2 facing outward from the roof surface.

According to the invention, asymmetrically arranged openings 4 are arranged offset from the highest points of the protrusions 3, which are pressed out of the reaction surface 2 and are preferably elliptical (Fig. 3). The protruding reaction surface 2, structured with depressed bumps 3, obstructs the flow of liquid, so that the drainage moisture (rainwater, snow, etc.) takes a relatively long distance between and along the bumps 3 and is evenly distributed over the reaction surface 2. Thus, especially in wind or stormy gusts, the draining moisture reacts with the metal for a relatively long period of time and releases copper ions from the metal roof slab, which inhibit vegetation on the roofs of buildings and exert a cleaning effect on the roof surface.

As a result of the asymmetrically arranged openings 4 facing the direction of the drainage of the water A large part of the drainage moisture can be purposefully transferred from the top side 6 to the bottom side 5 of the metal roof panel and react therewith with the metal surface of the bottom side 5. This doubles the reaction surface, since even in the case of fog or light rainfall, due to capillary action, moisture remains on the underside of the metal roofing sheet 5 located on the roof of the building and thus the reaction time between the moisture and the metal roofing sheet is significantly increased.

Figures 2 and 3 show, in magnified form, a preferred embodiment of the bumps 3 pressed towards the upper side 6, with the apertures 4 cut out together with the cutting or stamping operation. It can be seen here that the apertures 4 are formed asymmetrically with respect to the center line of the bumps 3 and provide a particularly efficient inlet of water along the direction A of the water flow to the underside 5. The asymmetrically formed opening 4 can extend up to the top 6 as indicated by a dashed line.

Figure 4 shows a metal roof plate inserted between two rows of roof tiles 8; roof tiles 8 can be made of concrete. The location of the structured reaction surface 2 on the underside of the metal roof panel is shown here, as well as the circumferential edge 1 around it. The role of the protruding rib 7 formed on the upper part of the metal roof plate, i.e. above the reaction surface 2 shown in Fig. 1, is to support the roof tile 8 above. A flat gap 9 is formed between the circumferential edge 1 and the rib 7, which improves the ventilation of the roofs of the buildings.

These gaps 9 form channels of only a few millimeters high, but relatively long, which provide adequate protection against the moisture blown by the wind, especially in the event of stormy gusts. However, it is desirable that a certain amount of moisture be introduced into the space 9, since the portion of the metal roof panel covered by the top row of roof tiles 8 also acts as a reaction surface.

The efficiency can be further enhanced by pre-oxidation, in particular by dipping the metal roof panel briefly in an alkaline or acidic chemical cleaner and by ultrasonic cleaning to eliminate the activation time otherwise required by the action of the metal ion solution.

Claims (10)

PATENT CLAIMS 1. Metal roofing sheet for cleaning and keeping roofs of buildings, in particular from vegetation or environmental contamination, which is formed by cutting out a sheet metal material which is reactive to moisture in a roofing compound and has a structured reaction surface with protruding bumps and openings (3). ) openings (4) are facing the direction of moisture flow (A). The metal roof panel according to claim 1, characterized in that it is made of copper-containing material. A metal roof panel according to claim 1 or 2, characterized in that it is provided on its outer edge with a flange (1) which prevents the drainage of moisture. 4. A metal roof panel according to any one of claims 1 to 4, characterized in that the bumps (3) provided with the openings (4) are arranged raster-like, closely adjacent to the reaction surface (2) of the metal roof panel. 5. A metal roof panel according to any one of claims 1 to 3, characterized in that the projections (3) are offset relative to one another in the downstream direction (A). 6. Metal roof panel according to one of claims 1 to 3, characterized in that the openings (4) are formed laterally from the tips of the projections (3) pressed out of the reaction surface (2) towards the roof ridge. 7. A metal roof panel according to any one of claims 1 to 3, characterized in that the openings (4) are elliptical. 8. A metal roof panel according to any one of claims 1 to 5, characterized in that a rib (7) is provided on its upper side (6) in the middle to support and ventilate the roof tile (8) above the metal roof panel. 9. A metal roof panel according to any one of claims 1 to 3, characterized in that its upper side (6) and / or its lower side (5) are pre-oxidised. The metal roof panel according to claim 9, characterized in that it is pre-oxidized by ultrasonic cleaning and / or degreasing with chemical cleaning agents.