EP0694658A1 - Fastening device for roof tiles - Google Patents

Abstract

The fastener anchor (5) can be fitted to a roof beam (3), while a spike (8) is connectable to a roof tile (9) and engages an eyelet (7) in the anchor. Pref. the anchor is formed by a bent, galvanised wire which may have a section (4) gripping round the roof beam. The spacing (a) of the eyelet from the rear side of the roof beam section of the anchor is greater than the roof beam thickness (d) and that (D) of the roof tile. The spike may pass through an aperture in the roof tile. <IMAGE>

Description

The invention relates to a fastening device for roof tiles.

Known fastening devices of this type have brackets which connect a roof tile to a roof batten.

Since the previously known solutions have disadvantages, the object of the invention is to provide an improved fastening device for roof tiles.

According to the invention, this object is achieved by a fastening device for roof tiles, which consists of an anchor which can be attached to a roof batten and a spoke which can be connected to a roof tile and which engages in an eyelet of the anchor. The roof battens are reliably held securely in a simple manner by the interaction of the spoke with the anchor.

Advantageous developments of the invention are described in the subclaims.

The anchor preferably consists of a bent wire. This has the advantage that the anchor can be formed in one piece, which is particularly inexpensive. The wire is preferably galvanized. However, it is also possible to choose other materials. It is advantageous if the anchor is made of a corrosion-resistant material that has good tensile strength.

The anchor preferably has a section encompassing a roof batten or another part of the roof. The arrangement is preferably made in such a way that the anchor with this section can preferably be plugged onto the batten from below. If the anchor is held in place on the roof batten, it is particularly easy and safe to install. With the previously known solutions, it can happen that the clips previously used fall down during assembly. This is not possible according to the advantageous development of the invention, so that the assembly is simplified and made more secure.

The reliable attachment of the anchor to the roof batten can preferably be achieved in that the distance between the parts of the anchor surrounding the roof batten is slightly smaller than the thickness of the roof batten, so that the anchor is held on the roof batten by the frictional force generated by the bending.

A further advantageous development is characterized in that the distance of the eyelet from the section of the anchor resting on the rear side of the roof batten is greater than the thickness of the roof batten and the thickness of the roof tile. In this way it is ensured that the eyelet projects beyond the roof tile, so that the spoke can engage in the eyelet particularly simply and reliably.

It is advantageous if the spoke penetrates a hole in the roof tile. In this way, the spoke can be connected to the roof tile in a particularly simple manner.

The spoke can have a straight section, at the end of which a bend can be provided. This configuration can be combined particularly advantageously with the further development, according to which the spoke penetrates a hole in the roof tile. In this case, the spoke passes through the hole with its straight section. The bend, which is preferably at right angles, but which can also include another angle with the straight section, then prevents the spoke from falling out of the hole. This also simplifies assembly and makes it safer.

The spoke preferably consists of spring steel. But it can also consist of other suitable materials. The material used for the spoke is preferably corrosion-resistant. Furthermore, the material should have good flexural strength since it is generally subjected to bending. It should also have a certain elasticity in order to be able to return to its starting position when deflected.

Another advantageous development is characterized in that the roof tile has a fastening lug. The fastening lug is preferably located on the back of the roof tile. It is advantageous if the hole already mentioned above is provided in the fastening lug. The fastening lug can then be dimensioned such that it can absorb the forces exerted on the roof tile by the spoke via the fastening lug.

Another advantageous development is characterized in that the armature consists of a bent sheet metal. This is generally associated with a larger material requirement. In this way, however, the anchor can be produced in a particularly simple manner.

The eyelet is preferably punched out of the sheet metal. This can happen before the sheet is bent. However, it can also take place during the bending of the sheet or afterwards.

According to a further advantageous development, the anchor has a bend at its end adjoining the eyelet. This is particularly advantageous if the armature consists of a bent sheet metal. The bend is preferably designed such that it points in the direction of the roof tiles when the anchor is installed.

The fastening device according to the invention is particularly suitable for fastening hollow pans. However, it can also be used with advantage for fastening other roof tiles, for example pans, but also for interlocking tiles and similar tiles, as well as roof tiles of all kinds.

The fastening device according to the invention serves in particular as a storm protection for roof tiles.

Fig. 1

eine Befestigungsvorrichtung, bestehend aus Anker und Speiche, im montierten Zustand in einer Seitenansicht,

Fig. 2

den Anker in einer Ansicht von vorne,

Fig. 3

den Anker in einer Seitenansicht,

Fig. 4

den Anker in einer perspektivischen Ansicht,

Fig. 5

die Darstellung der Fig. 1 in einer Ansicht von unten,

Fig. 6

einen aus einem gebogenen Blech bestehenden Anker in einer Seitenansicht und

Fig. 7

den Anker gemäß Fig. 6 in einer Ansicht von vorne.

An embodiment of the invention is explained below with reference to the accompanying drawings. In the drawing shows

Fig. 1

a fastening device, consisting of anchor and spoke, in the assembled state in a side view,

Fig. 2

the anchor in a view from the front,

Fig. 3

the anchor in a side view,

Fig. 4

the anchor in a perspective view,

Fig. 5

1 in a view from below,

Fig. 6

a side view of an anchor consisting of a bent sheet and

Fig. 7

6 in a view from the front.

As can be seen from FIG. 1, the roof tile 1 lies on the front upper edge of the cross section of the rectangular crossbar 3 with its rearward projecting hanging nose 2 located at its upper end. The lower section 4 of an anchor 5 encompasses the lower half of the roof batten 3. At the end of the upper section 6 of the armature 5 there is an eyelet 7 into which a spoke 8 engages. The spoke 8 passes through the eyelet 7 of the armature 5. Furthermore, the spoke 8 passes through a rearward-projecting fastening lug 10 provided on the underside of the next upper roof tile 9 in its lower region, in which a straight hole which accommodates the spoke 8 is provided, which runs essentially parallel to the longitudinal direction of the roof tile 9.

The armature 5 is bent from a single galvanized wire; so it is one piece. The section 4 encompassing the roof batten 3 in turn consists of a front section 11, a lower section 12 and a rear section 13. The front section 11 and the rear section 13 run essentially parallel to one another. Their distance from each other is slightly less than the thickness d of the roof batten, so that the compressive force that arises due to the elasticity of the anchor 5 during spreading generates a frictional force between the anchor 5 and the roof batten 3 that is sufficiently large to prevent the anchor 5 from falling to prevent from the roof batten 3.

The angle between the front section 11 and the middle section 12 is slightly less than 90 °. As a consequence, the angle between the middle section 12 and the rear section 13 is somewhat larger than 90 °. As a result, the clamping effect is further improved.

The rear section 13 of the anchor 5 lies against the rear side of the roof batten 3. It extends beyond the rear upper end of the roof batten 3. There is then a forward-facing bend 14, which is followed by an inclined section 15, which in the exemplary embodiment shown extends at an angle of approximately 45 °, but for which other angle sizes can also be selected. At the end of the inclined section 15, a section 16 pointing forward bends, which forms the eyelet 7 at its front end. The front section 16 runs essentially at right angles to the rear section 13 and to the front section 11 and almost parallel to the central section 12. The section 16 pointing forward also runs essentially at right angles to the longitudinal direction of the roof tile 1.

von der Vorderseite 17 des Dachziegels 1 vorsteht, so daß die Speiche 8 in die Öse 7 eingreifen kann.As can be seen from FIG. 1, the distance a of the eyelet 7 from the section 13 of the anchor 5 resting on the rear side of the roof batten 3 is greater than the thickness d of the roof batten 3 and the thickness D of the roof tile 1. This ensures that the eyelet 7 by the measure $\text{a - (d + D)}$

protrudes from the front 17 of the roof tile 1, so that the spoke 8 can engage in the eyelet 7.

At the upper end of the otherwise rectilinear spoke 8 there is an angled portion 18, which in the exemplary embodiment with the rectilinear section includes an angle of 90 °, but which can also have a different angle. The bend 8 prevents the spoke 8 from falling downward.

The front end 19 of the armature 5 has a width b which is several times greater than the thickness or the diameter of the spoke 8. Furthermore, the front end 19 of the armature 5 runs essentially in the manner shown in FIG right angle to the subsequent section 16.

Due to the fact that the front end 19 has the width b, the way that the armature 5 does not have to be positioned exactly in the middle of the brick 1 is achieved in the manner which is particularly clearly visible from FIG. 5. Even if the anchor 5 is shifted slightly on the roof batten 3 or if the anchor 5 has not been positioned in the exact right place, the spoke 8 can still engage in the eyelet 7 of the anchor 5. The spoke 8 is then not exactly in the middle of the section 19. However, this does not impair the functionality of the fastening device.

In the exemplary embodiment shown in the drawings, the roof tiles 1, 9 are designed as hollow panes, the brim 20 which lies at the left end of the hollow pan and which is curved downward engages over the right upper end of the hollow pan following on the left side.

2, the armature 5 is shown from the view of the arrow 21 in FIG. 1.

3 shows the armature 5 from the view of the arrow 22 in FIG. 2.

4, the armature 5 is shown in a perspective view.

5 shows the hollow tile 1, the roof batten 3 and the anchor 5 from the perspective of arrow 23 in FIG. 1.

FIG. 1 shows a section along the line I-I in FIG. 5.

In the exemplary embodiment, the anchor 5 engages around a roof batten 3. However, it is also possible for the anchor 5 to be fastened or fastened to another part of the roof.

The fastening device consists of two parts, namely the anchor 5 and the spoke 8. On the back of the roof tile 9 (the roof tile 1 is identical to the roof tile 9) there is a fastening possibility for the spoke 8, which in the exemplary embodiment consists of the fastening lug 10 the hole therein for receiving the spoke 8.

According to the invention, the fastening elements, namely the armature 5 and the spoke 8, are designed to be favorable according to their type of loading. A force directed towards the armature (against the direction of arrow 21) acts on the armature and is introduced through the spoke 8 into the eyelet 7 of the armature 5. Section 16 is only loaded on train, section 15 is mainly loaded on train and only slightly on bending. The section 13, which is actually loaded on bending, rests on the back of the roof batten 3, so that its bending stress is also only slight. Accordingly, the anchor 5 is almost exclusively subjected to tension, which is very favorable from a load point of view. Accordingly, it is sufficient to choose a material for the armature 5 that is high Has tensile strength. Good flexural strength does not have to be present. The material should also be corrosion-resistant. In addition to galvanized wire, which is particularly advantageous, stainless steel is also particularly suitable, but is relatively expensive.

The spoke 8 is also subjected to bending, so that the material selected for it should also be resistant to bending. Spring steel is particularly advantageous. However, other materials can also be considered. The material for the spoke 8 should also be corrosion-resistant. It should also have a certain elasticity in order to be able to return to the starting position after a deflection caused by wind forces or other forces.

As can be seen in particular from FIG. 1, the fastening device fixes the next lower roof tile 1 between the next upper roof tile 9 and the roof batten 3 or the other roof element. It is a two-part fastening system consisting of anchor 5 and spoke 8. However, since these two parts fasten two roof tiles 1, 9, only one fastening part is required per roof tile.

It is possible to fasten each roof tile using a fastening device according to the invention. Depending on the application, it may also be sufficient to provide a fastening device for only part of the roof tiles, for example fastening every second, third, fourth, etc. roof tile. The composite effect of the overlapping roof tiles also holds those roof tiles on which there is no fastening device.

The assembly is done as follows: First the anchor 5 from stuck to the roof batten 3 below. Then the roof tile 1 is placed on the roof batten 3. Then the spoke 8 is inserted from above into the hole in the fastening lug 10 of another roof tile 9. The roof tile 9 prepared in this way is then placed on the next top roof batten, in such a way that the lower end of the spoke 8 passes through the eyelet 7 in the manner shown in FIG. 1.

To improve the clamping effect of the anchor 5 on the roof batten 3, the front section 11 of the anchor 5 can be slightly bent inwards. The upper end of the front section 11 is therefore closer to the rear section 13 than the junction of the sections 11 and 12.

As can be seen from FIG. 1, the upper part 6 of the anchor 5 engages over the upper end and the hanging lug 2 of the (next lower) roof tile 1, which rests on the roof batten 3, to which the anchor 5 is also attached. The spoke 8, which is connected to the next roof tile 9, engages in the eyelet 7 of this anchor 5. As a result, the upper end of the next lower roof tile 1, including its hanging nose, is clamped in the manner described between the roof batten 3, the upper part 6 of the anchor 5 and the lower part of the spoke 8 and the lower part of the next lower roof tile 9.

Holding forces can be absorbed by the fastening system according to the invention, which are significantly higher than in previously known solutions. The fastening lug 10 is dimensioned such that it can absorb the required forces.

FIGS. 6 and 7 show a modified embodiment in which the armature 5 consists of a bent sheet metal. The sheet is bent or folded at various points, so that essentially the same shape arises as in the embodiment already described above.

The eyelet 7 is punched out of the sheet.

Furthermore, the armature 5 has a bend 24 at its end adjoining the eyelet 7. The bend 24 forms an angle with the forwardly pointing section 16, in which the eyelet 7 formed by the punching is located. In contrast to the embodiment of FIGS. 1 to 5, in the variant of FIGS. 6 and 7, section 16 does not run parallel to section 12, but at an angle to the outside, that is to say to the end of the bend 24. An obtuse angle is included between the section 16 and the bend 24, which is dimensioned such that the bend 24 runs approximately parallel to the section 11. Furthermore, the bend 24 is directed outwards from the section 16.

Claims (11)

Fastening device for roof tiles, consisting of
an anchor (5) which can be attached to a roof batten (3),
and a spoke (8) which can be connected to a roof tile (9) and which engages in an eyelet (7) of the anchor (5). Fastening device according to claim 1, characterized in that the armature (5) consists of a bent, preferably galvanized wire. Fastening device according to claim 1 or 2, characterized in that the armature (5) has a section (4) encompassing the roof batten (3). Fastening device according to one of the preceding claims, characterized in that the distance (a) of the eyelet (7) from the section (13) of the anchor (5) resting on the rear side of the roof batten (3) is greater than the thickness (d) the roof batten (3) and the thickness (D) of the roof tile (1). Fastening device according to one of the preceding claims, characterized in that the spoke (8) passes through a hole in the roof tile (9). Fastening device according to one of the preceding claims, characterized in that the spoke (8) has a straight section, at the end of which an angled portion (18) is provided. Fastening device according to one of the preceding claims, characterized in that the spoke (8) consists of spring steel. Fastening device according to one of the preceding claims, characterized in that the roof tile (9) has a fastening lug (10). Fastening device according to one of the preceding claims, characterized in that the armature (5) consists of a bent sheet metal. Fastening device according to claim 9, characterized in that the eyelet (7) is punched out of the sheet metal. Fastening device according to one of the preceding claims, characterized in that the armature (5) has an angled portion (24) at its end adjoining the eyelet (7).

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