NL7900821A - Flat roof covering with air and heat circulation - has loose plates or tiles unattached to roof, with circulation passages between them whilst roof has through holes - Google Patents

Abstract

The method is for the wind-safe covering of a roof, partic. one of the flat type. It involves the application of loose plates or tiles which allow the passage of sun rays. These plates are not anchored to the roof, and between them and the roof surface proper are spaces to allow air flow under the covering. The plates or tiles can be made of concrete with granular material inserts, the granules being equal in size. They may also be made of normal concrete material with through holes to allow passage of air and sun heat.

Description

f * '0 N.O. 27,219 TE BIET B et onwar en-Indus trie B.V., in Winterswijk.

Method for windproof covering of roofs,

The invention relates to the windproof covering of roofs, in particular flat roofs.

To cover flat roofs, in many cases a gravel layer is poured onto the sealing roof covering or, in the case of inverted roofs, onto the heat-insulating layer. This gravel layer serves to reduce temperature fluctuations in the roofing and to protect against ultraviolet radiation.

Such a gravel layer can be applied in a simple manner and is lightweight, so that no extra heavy requirements have to be imposed on the roof construction. 10

A drawback is, however, that the loose gravel can blow away when strong winds occur, and building construction measures cannot in all cases be taken to avoid this phenomenon.

In order to avoid this drawback, it has been decided to cover flat roofs with concrete slabs at least in critical areas. Normal concrete slabs can, however, be exposed to strong wind suction forces when strong winds occur, which tend to lift the slabs off the roof. To prevent this, in many cases the plates are anchored firmly to the roof or the plates are made heavy and laid loose on the roof. However, additional time-consuming operations are required to anchor the concrete slabs to the roof. additional anchoring means must be fitted.

If no anchoring is used, the weight of the concrete slabs is bound to a minimum value, which depends on predetermined maximum wind loads to which the roof can be exposed. On the other hand, the weight of the concrete slabs is limited to a maximum value, which is 790 0 3 2 1 2 depending on the statically permissible roof load. The permissible minimum value and the permissible maximum value of the weight of concrete slabs to be used, however, are often difficult to match, especially in existing buildings. 5

The object of the invention is to provide a method for windproof covering of roofs which has the advantages of gravel layers - low weight and easy to apply, without the associated disadvantage - blown away by the covering - occurring. 10

According to the invention, that object is achieved in that the roofs are covered with a flow-permeable cover of loose, non-anchored plates or tiles, leaving spaces between the surface of the covered roof and the underside of the cover to provide 15 of the possibility of airflow under the. cover.

Due to the permeability of the cover and the possibility of air flow under the cover, a pressure equalization can take place between the top and the bottom of the cover in the event of wind, as a result of which an average pressure difference is spread between the top and the bottom of the cover over the plates. adjusts such that a lifting or suction force is exerted on the plates which is less than the force which would arise as a result of the pressure distribution obtained with only the surface of a windproof cover, for instance consisting of hitherto usual concrete plates . As a result, when applying the method according to the invention, in which plates or tiles are laid loosely on the roof to be covered, it is possible to use plates or tiles, the permissible minimum weight of which at a certain maximum wind load, is considerably smaller. is then that of hitherto conventional impermeable concrete slabs or tiles, thereby providing the opportunity for the. new method to be applied to roofs, where until now when the usual impermeable concrete slabs were used, these slabs had to be anchored to the roof 790 08 2 1 3 *, or had to be so heavy that, without additional roof reinforcements, could not or should not be used.

For the application of the method according to the invention, use can be made of plates or tiles which in themselves are permeable to flow. Porous tiles known per se, consisting of concrete with granular aggregates with a uniform grain size, such as fine gravel, can very suitably be used for this.

According to the invention, in order to achieve the desired permeability, it is also possible to use plates or tiles made of normal impermeable concrete and which, spread over the entire thickness of the plate, spread over their surface in order to achieve the desired permeability. have openings. 15

The desired permeability of the covering can also be obtained or influenced in a desired manner by arranging the plates or tiles in such a way that joints of a certain width are created between them, whereby use can be made of spacers arranged between the tiles. The spacers can be designed in such a way that adjacent tiles come into contact, whereby an additional resistance exerted against the tiles can be obtained.

According to the invention, by providing the possibility of air flow 25 under the cover, tiles or plates can be used, which are provided with channel-shaped recesses or grooves on their bottom surface facing the roof surface. In order to obtain a favorable effect, the plates or tiles can be placed on or provided with support members, which keep the bottom surface of the plates or tiles at a distance from the roof surface.

A favorable effect on the pressure distribution over the cover can furthermore be obtained according to the invention if the plates or tiles are laid in compartments in which the roof to be covered is subdivided, whereby the intended pressure equalization between the top and bottom of the cover is in each case over a not 790 08 21 X? excessive surface area takes place. The subdivision into compartments can be achieved by means of strips of impermeable concrete laid in strips.

It has also been found that flow equalization takes place at the top of the plates or tiles and suction heads 5 are reduced in the pressure distribution over the plate or tile surface, if the plates or tiles are provided with a channel-shaped structure on their surface.

The invention will now be explained in more detail with reference to the drawing, which shows, by way of example, a cover applied by means of the method according to the invention and an embodiment of tiles used therewith.

Fig. 1 schematically shows a top view of a roof covered with tiles according to the method according to the invention.

Fig. 2 shows in detail a cross-section of a part of the roof according to Fig. 1.

Fig. 1 shows part of a roof covered with tiles 1; which tiles 1 are shown in more detail in fig. In the exemplary embodiment shown, the tiles 1 consist of so-called known draining hedgehogs, consisting of concrete mixed with fine gravel, which are permeable to water and consequently also to air.

In the example shown, the tiles are laid loosely on the insulating layer 2 of a per se known inverted roof, which is further composed of a layer 5 of moisture-proof covering material, such as asphalt paper and a roof board 4, which is laid on a beam layer 5 · The edge of the roof is finished with a plastic mastic strip 6, a buoy part 7 and an aluminum roof trim 8. Number 9 denotes a cavity wall. The tiles 1 laid loosely on the roof are provided with channel-shaped recesses 10 on their underside, whereby spaces are left between the tiles 1 and the insulating layer 2 of the roof, in which air flow is possible. 35

As shown in Fig. 1, the tiles are butted together in sections, indicated in the drawing by 790 08 21 5 A, B, C and D, which sections are separated from each other by tiles 11 in flow jointed against each other from flow impermeable heton.

When wind occurs, a pressure distribution arises as a result of the wind flow over the roof covering, whereby 5 areas are created where at the top of the roof covering there is a relatively large underpressure and areas where there is an underpressure or a relatively small underpressure. The suction force exerted on the tiles in the areas where an underpressure is applied above the tiles depends on the pressure difference prevailing between the bottom and the top of the tiles. When the flow-permeable tiles 1 are used, a pressure equalization takes place between the top and bottom of these tiles, because air can flow from the spaces 10 through the tiles 1 to the top. 15

In addition, due to the permeability of the tiles, an air flow can also take place between the tiles 1 and the insulating layer 2 in the direction parallel to the roof, whereby air can flow from a place under the roof covering where there is a relatively low underpressure above the roof covering. 20 to a place where there is a relatively high underpressure above the roof covering, as a result of which a relatively uniform pressure difference between the top and bottom of the roof covering is set over the entire roof covering, which is lower than with roof coverings of impermeable material. This effect is favorably influenced by laying the tiles in vldcken, as shown in fig. 1. If the tiles are laid continuously over a large area, pressure distributions can be created above the roof covering, the areas with great underpressure above the roof covering and those with a smaller underpressure or a 50 overpressure, will be located at a relatively large distance from the first-mentioned areas, as a result of which an even pressure distribution will be counteracted under the roof covering and a pressure equalization in particular in the areas where a large underpressure prevails to a lesser extent. degree will take place than with a roof covering 35 of a smaller area.

.790 08 21

Claims (11)

Method for windproof covering of a roof, in particular a flat roof, characterized in that the method consists of covering the roof by a flow-permeable cover of loose plates or tiles that are not anchored to the roof, leaving spaces between the surface of the covered roof and the underside of the cover to provide a possibility of air flow under the cover. 2. Method according to claim 1, characterized in that the roof is covered by plates or tiles which are self-permeable to flow. 5. Method according to claim 2, characterized in that plates or tiles are used which consist of concrete with granular aggregates of uniform grain size. 4. Method according to claim 2, characterized in that plates or tiles are used which are manufactured from normal impermeable concrete, which plates or tiles are distributed over their surface throughout the thickness in order to obtain the desired permeability. have openings extending from the slabs or tiles. Method according to claim 1, characterized in that the permeability of the roof covering is achieved by laying plates or tiles with the aid of spacers such that joints of a predetermined width are created between them. 6. Method according to claim 5, characterized in that use is made of spacers between 790 0 8 2 1 tiles which are designed in such a way that adjacent tiles are joined together in a bandage. Method according to claims 1 to 6, characterized in that to provide a possibility of air flow under the covering, plates or tiles 5 are used, which are provided with channel-shaped recesses on their side facing the roof surface. Method according to claims 1 to J, characterized in that the plates or tiles are laid on or provided with supporting members which keep the bottom surface 10 of the plates or tiles at a distance from the roof surface. Method according to any one of claims 1 to 8, characterized in that the plates or tiles are laid in compartments in which the roof to be covered is divided. 10. Method according to claim 9, characterized in that the subdivision into compartments is effected by strips of impermeable material laid in strips. 11. A method according to any one of the preceding claims, characterized in that plates or tiles are used, which are provided with a channel-shaped structure on their top surface. 790 0 8 21