[0001] The present invention relates to a cladding assembly and method, e.g. for tiling
a roof.
[0002] In a conventional method for cladding a pitched roof, an array of longitudinally
extending parallel battens is mounted to the roof, the spacing of the battens corresponding
to the intended spacing of the tiles. Tiles are then laid on the battens, and secured
in place. This securement is generally effected by nailing, several nails being required
for each tile. Plainly this is time-consuming. It brings a risk of introducing points
of leakage, particularly as the roof weathers. A tile is secured only at a few locations.
The result may be unsightly.
[0003] The present invention makes possible a rapid cladding method in which it is unnecessary
to apply nails or other securing means to the exterior of the tiles. Thus, cladding
elements (such as tiles) and supports may be mutually adapted to allow snap-engagement.
A cladding element is provided with a pair of oppositely facing hook formations at
opposite edges, and the support means provide tongues for engaging a pair of different
hook formations provided by an adjacent pair of cladding elements. The tongues are
provided by retaining profiles which may be connected to supports such as conventional
battens. Each profile is adapted to support an adjacent cladding element. Each profile
extends for at least a substantial part of the width of a cladding element, and may
extend across a plurality of cladding elements, e.g. across an entire roof or other
clad surface. Thus a cladding element can be supported for substantially its whole
extent. The tongues and/or hook formations should have some resilience to facilitate
engagement. Preferably the arrangement is such that one hook formation of a cladding
element can be offered up to hook behind a tongue when the element is projecting away
from its cladding configuration; after engagement, the element can then be moved to
its cladding configuration, with its other hook formation finally engaging the tongue
of an adjacent support means. This support means may already be engaging the tongue
of opposite type of the adjacent cladding element.
[0004] A preferred form of retaining profile has a formation for engaging a batten or other
support; a tongue; and a support flange for extending in the cladding direction beneath
the tongue, so as to provide support for an end region of a cladding element whose
hook portion is engaged with the tongue.
[0005] In another aspect of the invention provides a method of cladding a surface by providing
supports having tongues and cladding elements having hook portions, and mutually engaging
them generally as indicated above.
[0006] In another aspect the invention provides a kit of parts for cladding a surface, including
such hooked cladding elements, and support means which provide tongues, and which
may comprise retaining profiles.
[0007] Some embodiments of the invention will now be described in greater detail with reference
to the accompanying drawings in which:
Fig. 1 is a plan view of a tile;
Fig. 2 is a front elevation of the tile;
Figs. 3,4 and 5 are sections on lines A-A, B-B and C-C respectively in Fig. 1;
Figs. 6 and 7 are details in plan and front elevation of a modified tile;
Fig. 8 is an end elevation of a tile retaining profile supporting a tile;
Fig. 9 is a schematic section through a portion of a roof incorporating tiles and
profiles as shown in the preceding figures; and
Figs. 10 and 11 are views similar to Figs. 1 and 2 but showing a modified embodiment.
[0008] The tile 10 shown in Figs. 1 to 5 is generally rectangular in plan, having long front
and rear edges 12,14. It is profiled, with a raised region 16 adjacent the front edge
from which ridges 18 run rearwardly towards the rear edge 14. Between the ridges 18
there are smaller ridges 20 extending forwardly from the rear edge 14. At one lateral
side (the right as seen in Fig. 1) there is a low overlap area 22 with a plurality
of small ridges 24. At the other lateral edge there is a complementary portion 26
which provides a socket in which the right-hand portion 22 of an adjacent tile is
engageable.
[0009] At the rear edge there is an upstanding flange 28. As can be seen from the sectional
views of Figs. 3 to 5, this provides an upwardly open hook formation 30 at the rear
of the tile, whereas the raised region 16 at the front provides a downwardly open
hook portion 32. This has a front edge delimited by a flange whereof an upper portion
34 extends downwardly and forwardly, and a final portion 36 extends downwardly and
rearwardly.
[0010] Such a tile may conveniently be formed of a resin/glass composite material. This
can easily be produced by conventional resin injection techniques, using inexpensive
plant.
[0011] Figs. 6 and 7 show end regions of a tile 10ʹ generally similar to the tile 10 of
the preceding figures, but having a series of grooves 33 running from front to rear,
so as to provide downward projections. The grooves are also indicated in broken lines,
in Figs. 3 and 8.
[0012] Fig. 8 shows a tile retaining profile 40. This is a plastics extrusion which has
to be fairly tough but with some resilience. A suitable material has been found to
be a semi-rigid ABS, 1mm thick. The profile presents a rear batten-engaging formation
42, in this example provided by a pair of wall portions 44,45 at right-angles. On
the other side, the profile has a downwardly and forwardly extending tongue or flange
46 which terminates with a free end 47 some way above the bottom end of the wall 45.
The wall 45 has a forwardly extending flange 48, which extends beneath the end 47
of the flange 46. A tile 10 is shown, supported by the flange 48 which extends for
its whole width. The tiles rear flange 28 is hooked under the tongue 46. If the tiles
has grooves or ribs 33, these tend to deform the profile, and cause the rear flange
28 of the tile 10ʹ to be urged up behind the tongue 46. It can be seen that the leading
edges of the ribs are angled to assist engagement.
[0013] Fig. 9 shows a portion of a roof which slopes downwardly from right to left, and
bears horizontally extending wooden battens 50. These are of rectangular section,
and each bears a title retaining profile 40, being embraced by the walls 44,45 thereof.
The profiles 40 are secured to the battens 50, e.g. being nailed through, so that
the tongues 46 project from the lower sides of the battens. Once the profiles 40 have
been attached, the tiles 10 can be mounted. Starting at a lower edge region, the rear
hook formation 30 of a tile is hooked under the angled flange 46 of a profile, with
the tile initially held approximately at right-angles to the flange 46, and then laid
down as shown. The next higher tile can then be applied, by engaging its upper hook
formation 30 in the next highest batten's profile 40, and laying it down by pivoting
anti-clockwise until it abuts the lower batten 50, and its front hook formation 32
snap-engages behind the flange 46 of its profile 40. Of course, the spacing of the
battens 50 must correspond to the lengths of the tiles (though some minor adjustment
is possible by the mounting of the profiles 40). In this manner the tiles can be swiftly
and efficiently engaged, without the need for any nailing, or indeed any external
fixing elements.
[0014] If it is desired to remove a tile, use may be made of an implement having a wide
blade with an upturned lip with which one can hook the inturned flange portion 36
of the front hook 32 of a tile, and pull it free of the profile 40.
[0015] As an example of dimensions, with a tile of width about 370mm (from front to back)
and height about 30mm, a profile 40 may be of ABS which is 1mm thick, with the flange
46 about 18mm long, its free end 47 being 10mm from the wall 46 and 7mm from the bottom
flange 48.
[0016] The tile 110 shown in Figs. 10 and 11 is in most respects similar to that of Figs.
1 and 2. Its plan is similar, with opposed long edges 12,14 where there are hook formations;
short edge regions for lateral overlap; and a pattern of large (18) and small (20)
ridges. However, the regions 102,104 for lateral overlap are different. At one end,
the overlap region 102 is provided by a large ridge 18, terminating with a downwardly
and outwardly extending flange 106. The opposite region 104 resembles a cut-off ridge
18, and can be overlaid by the other region 102 of an adjacent tile 110, with its
end flange 106 sitting in the relatively recessed drainage channel 108. The tile is
also shaped to provide drainage channels 109 suitable for end barge cappings to sit
in.
[0017] Near the rear flange 28 and adjacent the overlaid overlap region 104, there is an
upward projection 112. When tiles are being located side by side, they are pushed
together so that the overlap regions 102,104 engage. The projection 112 makes it very
easy to achieve this accurately. Generally, a course of tiles will be laid side by
side before the tiles of the next higher course are laid.
1. A cladding assembly comprising a plurality of cladding elements (10;10ʹ;110) and
a plurality of supports (40) therefor; wherein each cladding element (10;10ʹ;110)
has a pair of oppositely facing hook formations (30,32) at opposite edges such that
a hook formation of the first type (30) on one element is engageable with a hook formation
of the second type (32) on a second element; and a support (40) has an engagement
formation (46) for engaging a mutually adjacent pair of first and second hook formations
(30,32) provided by an adjacent pair of cladding elements so as to restrain their
disengagement; characterised in that the support (40) extends in use for at least
a substantial part of the width of a cladding element (10; 10ʹ;110) and provides support
therefor.
2. A cladding assembly according to claim 1 wherein the arrangement is such that a
first hook formation (30) of a cladding element can be offered up to hook behind an
engagement formation (46) of a support means (40) when the element is projecting away
from its cladding configuration, whereafter the element can be moved to its cladding
configuration, with its second hook formation (32) then engaging an engagement formation
(46) of an adjacent support means (40).
3. A cladding assembly according to claim 2 wherein said second hook formation (32)
and/or engagement formation (46) has resilience and is/are shaped so that they are
snap- engageable together.
4. A cladding assembly according to any preceding claim wherein cladding elements
(10;10ʹ;110) have a second pair of opposed edges extending transversely of the edges
which provide the hooks, and there are adjacent said second pair of edges respective
regions (22,26;102,104) with mutually complementary rib and socket formations whereby
laterally adjacent elements are engageable with overlap of respective regions.
5. A cladding assembly according to any preceding claim wherein each said support
means comprises a retaining profile which has a formation (42) for engaging a batten
or other support; a tongue engageable on different sides simultaneously by first and
second hook formations of adjacent elements; and a support flange (48) extending in
the cladding direction beneath the tongue (46), so as to provide support for an end
region of a cladding element whose hook portion is engaged with the tongue.
6. A cladding assembly according to claim 5 wherein each cladding element (10ʹ) has
ribs (33) projecting beneath it for engaging the support flange (48) of a respective
profile.
7. A support means comprising a retaining profile (40) for use in a cladding assembly
according to claim 5 or 6.
8. A method of cladding a structure comprising providing a cladding assembly according
to any of claims 1 to 6; mounting the support means to the structure with spacings
corresponding to the spacing of the two hook formations (30,32) of a cladding element
(10;10ʹ;110); and mounting the cladding elements to the structure by means of the
support means so that elements extend between pairs of support means.
9. A method according to claim 8 wherein the cladding assembly is as defined in claim
2, and the step of mounting the cladding elements comprises orienting a cladding element
so that it is projecting away from its cladding configuration; offering up a first
hook formation of the cladding element so that it hooks behind an engagement formation
of a first support means; and after engagement, moving the element to its cladding
configuration, and engaging its second hook formation with an engagement formation
of a second support means; and subsequently mounting another element in the same fashion,
engaging its first hook formation with a third support means on the side of the first
support means remote from the second support means, and engaging its second hook formation
with the first support means which already engages the first hook formation of the
previous element.
10. A structure when clad with a cladding assembly according to any of claims 1 to
6.