This invention relates to roof edging devices and particularly for use where a roof meets a side wall.
In countries such as the UK there are various constructional arrangements where the roof meets a side wall. In the case of the verge of a roof point, where the roof covering meets the side wall (gable triangle), running from the bottom (eaves) to the top (ridge), various methods have been used including the use of stone under-cloaking or ornate timber (barge boards) but these can be expensive.
An abutment of a roof is the point where the roof covering meets the side wall but rises above the roof. Traditionally this has been dealt with using lead sheet that is very expensive.
According to the present invention there is provided a roof edging device comprising a plastics strip for location under the edge of a tiled/slated roof and a plurality of integral webs upstanding on one side from said strip, at least one of said webs being for engagement with the underneath of the edge of the tiles/slates.
In one embodiment of the present invention, one of said webs will, in use, extend alongside the edge of the tiles/slates. Preferably, a plurality of webs extend upwardly from said strip and are located, in use, below the tiles/slates.
In another embodiment, the strip forms part of a channel extending on that side of the strip opposite said webs, the channel being for accommodating the edge of roofing battens.
The accompanying drawings are as follows:
Embodiments of the present invention will now be described, by way of examples only, with reference to the accompanying drawings.
Referring to
Upstanding from one longitudinal edge of strip 11, on the same side as web 2 is a further web or verge face 3 which has a turned over upper edge 14 and which also extends downwardly below strip 12 as illustrated.
Extending horizontally (as shown) from a position close to the bottom edge of verge face 3 is a strip 1 which is an overhang or undercloak and which, together with strip 12 and verge face 3, forms a channel at 16.
The device 10 is a co-extruded PVC strip available in various colours. It can be used for many types of roof covering but is ideally suited to non-slate coverings with an individual thickness in excess of 10 mm (concrete and clay tiles such as tiles 5 shown in
In order to fit the device 10 to achieve the arrangement shown in
The undercloak one can be simply adjusted in or out to allow for the overhang of the tiles that is caused by size differentials.
The above described device can be designed to fit directly onto standardised 25 mm roofing battens.
The flexible co-extruded rubber strip 2 quickly and easily forms a waterproof seal (water check) but allows for the contour step created at the overlap of the slates.
The above described device provides a simple and slim design which forms a clean edge 3 that is pleasing to look at. Furthermore, the clean drip section prevents rain water from running back under the roof.
Referring now to
This embodiment is also a co-extruded PVC strip available in various colours. It can be used with many types of roof covering but is restricted insofar as it will only seal a lap step of up to 10 mm. It is therefore ideal for natural and man-made slates 7. It can be used directly over brickwork 9 or finished timber as well as many other styles and substrates.
In order to fit the device of
Uneven brick 9 cuts can be sealed using mastic sealant 10.
The above described features of the first embodiment of the invention also apply to this second embodiment.
Referring to
The upstanding webs 3 and 4 are also angled towards the verge face 5, making an angle of about 60° to the strip 12. As illustrated, webs 3 and 4 each taper slightly from bottom to top. For instance the thickness of the webs 3 and 4 may be about 1.5 mm at the bottom and somewhat less than this at the top with the curved free ends having a radius of 0.5 mm.
The embodiments of this invention, including that illustrated in
Referring to
This two part construction allows the differential expansion, as well as reduced cost and stock requirements.
In order to fit this device, the roof is felted and battened in the traditional way, allowing, the battens to overhang the verge. The gauge of the roof is set and a straight edge is marked at the verge and excess overhanging battens are cut off. A small cut is made just behind the drip to allow a neat join onto the fascia board (eaves). The device of the present invention is then slid over the end of the battens. The top lugs of the face cover 1 are located onto the device and the lower lug 3 is snapped into place. The tiles 5 are laid in the usual way whilst ensuring that the water check is bent outwards and the tiles are nailed in position. Any uneven brick 7 cuts can be sealed using mastic sealant.
Referring now to
This fifth embodiment of the present invention is designed to be used in the construction industry as a simple and cost-effective water seal when the roof abuts a wall. It can be used with many types of roof covering but is restricted to the extent that, because it has a large water check 3, it will only seal a lap step of profiled tiles above 10 mm. The profile of such tiles varies and the requirement of the water check can change because of the lap step (shown in dotted lines in
In order to fit the device 10 to achieve the arrangement shown in
If appropriate, the nib at the top of the tile is removed and the tile is then fitted in the usual way, ensuring that the water checks 2,3 and 4 are bent outwards. The tiles are then nailed in position using non-ferrous nails 7.
Where appropriate, a vertical cut is made in water check 3 just above the tile to ensure that the seal comes high enough to meet the underside of the tile that is lapped above.
In
The above described embodiment is a quick, cost-effective and simple solution to installing soaker flashing on a profiled and plain tile covered roof. Alternative solutions are in existence but the present invention provides unique flexible co-extruded rubber strips 2,3 and 4 that quickly and easily form a waterproof seal (water check) that allows for the contour step created at the overlap of the slates.
Referring to
The device is broadly similar to that described above with reference to
The lead flashing 11 is cut and dressed.
The slates 6 are laid in the usual way whilst ensuring that the water checks 2,3 and 4 bend outwards. The slates are nailed in position using non-ferrous nails 7.
Referring to
Upstand 1 is provided with a groove 19 which is located in its outer (to strip 12) face and which runs parallel to strip 12.
Webs 2, 3 and 4 each extend upwardly and towards upstand 1, making an angle of about 65° to the strip 12. The height of the webs 2, 3 and 4 decrease from 2 to 4.
The free end of strip 12 has a thickness of about 1 mm, compared with the thickness of 1.5 mm for the remainder of strip 12 and upstand 1. The very end of strip 12 is curved with a 1 mm radius.
Number | Date | Country | Kind |
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0816261.2 | Sep 2008 | GB | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/GB2009/002137 | 9/7/2009 | WO | 00 | 4/27/2011 |