[0001] The present invention relates to cavity trays. The invention relates particularly
to a blank for forming a cavity tray or similar item.
[0002] A typical cavity wall consists of an inner wall and an outer wall separated by a
cavity. Most of the moisture in a cavity accumulates on the inner face of the outer
wall. It is known to incorporate a cavity tray into the outer wall to collect moisture
from the inner wall, and from within the cavity generally, and to direct the moisture
externally of the outer wall where it flows towards a drain or the like. Cavity trays
are commonly formed from lead and are made in a number of stages, typically comprising
one or more welding steps. However, welded joins in the cavity tray are prone to leaking
over time.
[0003] It is also known (see, for example
GB-A-1,086,226) to attach a lead flashing to the front edge portion of the cavity tray, such that
the lead flashing extends externally of the cavity wall in order to deflect the moisture
collected by the cavity tray away from the cavity wall. The flashing may be integral
with the rest of the cavity tray as disclosed in
EP-A-0 316 655.
[0004] It would be desirable to provide a cavity tray with improved water-tightness.
[0005] It will be understood that the term 'cavity tray' as used herein is intended to embrace
any similar membrane or device.
[0006] According to one aspect of the invention, there is provided a cavity tray according
to appended claim 1.
[0007] Preferably, the sheet of material is foldable between an unfolded state, in which
it is substantially planar, and a folded state, in which it forms the cavity tray.
[0008] In the preferred embodiment, the sheet comprises flexible, non-resilient material
which is capable of holding the shape into which it'is folded.
[0009] Other preferred features are recited in the dependent claims.
[0010] A second aspect of the invention provides a method according to appended claim 8.
[0011] Further advantageous aspects of the invention will become apparent to those ordinarily
skilled in the art upon review of the following description of specific embodiments
of the invention and with reference to the accompanying drawings.
[0012] An embodiment of the invention is now described by way of example and with reference
to the accompanying drawings, in which:
Figure 1 is a plan view of one embodiment of a blank for forming a cavity tray embodying
the invention;
Figure 2 is a perspective view of the cavity tray formed from the blank shown in Figure
1;
Figure 3 is a perspective view of a plurality of cavity trays of Figure 2, in situ,
incorporated into the outer wall of a cavity wall;
Figure 4 is a side elevation of the cavity trays of Figure 3,- showing a portion of
a pitched roof abutting the outer wall;
Figure 5 is a side sectional view of an alternative embodiment of a cavity tray incorporated
into a cavity wall;
Figure 6 is a perspective view of the cavity tray of Figure 2 further including a
hollow.
[0013] Referring now to the accompanying drawings, there is illustrated a first embodiment
of blank 10 embodying one aspect of the invention. The blank 10 may be used to form
a cavity tray, waterproof membrane or course, or similar item embodying another aspect
of the invention. Figure 1 shows the blank 10 in an unfolded state in which it is
generally planar. In the illustrated embodiment, the unfolded blank 10 is trapezium
shaped comprising first and second non-parallel ends 36, 38 connected by first and
second substantially parallel sides 32, 34 wherein the first end 36 is preferably
substantially perpendicular to the sides 32, 34. The acute angle formed between the
second end 38 and the first side 32 is denoted as R. It will be seen that the blank
10 is particularly suited for use at the junction of a vertical cavity wall and a
pitched roof structure (see Figure 4). Such cavity trays are sometimes referred to
as abutment cavity trays. In alternative embodiments, the unfolded blank 10 need not
necessarily be trapezium shaped and may, for example, alternatively be substantially
rectangular in shape.
[0014] An incision 30 is formed in the blank 10. The incision 30 runs substantially perpendicular
to, and opens onto, the second side 34 of the blank 10. The blank 10 includes a first,
a second and a third fold line 14, 18, 16 which may be tangible, for example in the
form of a score line or marked line, or notional. The first fold line 14 runs substantially
parallel with the first end 36 of the blank 10 substantially from one side 32, 34
to the other side 34, 32 and is located between the first end 36 and the incision
30. The second fold line 18 is substantially parallel with the first fold line 14
and runs between the first side 32 of the blank 10 and the end of the incision 30.
The third fold line 16 is substantially perpendicular with the first and second fold
lines 14, 18 and runs between the first end 36 of the blank 10 and the end of the
incision 30. The fold lines 14, 18, 16, together with the sides and ends of the blank
10 and with the incision 30 define regions as is now described.
[0015] A substantially rectangular base panel 12 is defined on three sides by the first,
second and third fold lines 14, 18, 16 respectively and on the fourth side by the
side 32 of the blank 10. A substantially rectangular back panel 20 is defined on two
sides by the first and third fold lines 14, 16 respectively and on two other sides
by the first end 36 and first side 32 of the blank respectively. A front panel 26
is defined on one side by the first fold line 18 and the incision 30, on the opposite
side by the end 38 of the blank 10 and on two further sides by the first and second
sides 32, 34 of the blank respectively. An overlap panel 24 is defined between the
back panel 20 and the side panel 22 and is bounded by the first and third fold lines
14, 16 and by the end 36 and side 34 of the blank 10. A fourth fold line 40 is provided
substantially from the point of intersection X of the first and third fold lines 14,
16 and obliquely disposed, preferably at an angle of approximately 45°, with respect
to both fold lines 14, 16.
[0016] Hence, the back panel 20 is foldable with respect to the base panel 12 along fold
line 14, the side panel 22 is foldable with respect to the base panel 12 along fold
line 16 and the front panel 26 is foldable with respect to the base panel along fold
line 18. The overlap panel 24 is foldable with respect to the back panel 20 along
fold line 16, with respect to the side panel 22 along fold line 14 and on itself along
fold line 40.
[0017] In the preferred embodiment, the height Y of the first wall panel 20 is greater in
dimension than the height P of a conventional brick 50, as shown by way of example
in Figure 3. The depth Z of the base panel 12 is preferably approximately the same
as the depth Q of the brick 50, also shown in Figure 3.
[0018] The blank 10 is preferably formed from a moldable, non-resilient material which is
substantially impermeable to water and which is capable of retaining any shape into
which it is folded. For example, the blank 10 may be formed from metal sheeting, especially
lead sheeting, or suitable plastics. Alternatively, the blank 10 may be formed from
flexible, impermeable, or waterproof, material and may be caused to retain the folded
state, i.e. to define a cavity tray, by any suitable fixing means. For example, in
the embodiment of Figure 2, assuming that the blank,10 comprises a flexible plastics
material, the folded state shown in Figure 2 may be retained by providing one or more
studs, adhesive or other fixing means, to hold the folded overlap 24 to the back panel
20 in the position shown.
[0019] The blank 10 is foldable into a folded state in which it forms a cavity tray, as
illustrated in Figure 2. To form the cavity tray from the blank 10, the back panel
20 and the side panel 22 are folded along the first and third fold lines 14, 16 respectively,
so as to lie generally in respective mutually perpendicular planes which are also
perpendicular to the base panel 12. The overlap panel 24 is folded along fold line
40 and is thus amenable to be further folded or wrapped behind (with respect to the
base panel 12) the back panel 20 (as shown in Figure 2 in broken outline) or behind
the side panel 22 (with respect to the base panel 12). Preferably, the folded overlap
panel 24 is folded closely against the rear of the back panel 20 or side panel 22
(as applicable) as illustrated in Figure 2. It will be seen from Figure 2 that, in
the folded state, the back panel 20 serves as a first, or back, wall of the tray 10
while the side panel 22 serves as a second, or side, wall. The back wall 20 and side
wall 22 extend or project from the obverse face of the base 12 in the same, or similar,
general direction, i.e. generally upwards as viewed in Figure 2. The incision 30 enables
the side panel 22 to be folded independently of the front panel 26. Hence, the front
panel 26 is folded along fold line 18 in a direction generally opposite the direction
in which back and side panels 20, 22 are folded with respect to the base panel 12.
Hence, the front panel extends or projects away from the reverse face of the base
panel 12, i.e. generally downwardly as viewed in Figure 2. In the preferred embodiment,
the front panel 26, when folded, lies in a plane which is substantially parallel with
the plane in which the back plate 20 lies, as illustrated in Figure 2.
[0020] The front panel 26 is preferably substantially trapezium shaped as shown in Figures
1 and 2. Alternatively, the front panel 26 may be substantially triangular. Alternatively
still, the front panel 26 may be substantially rectangular (where angle R is approximately
90°).
[0021] The incision 30 is preferably approximately the same dimension as the height P of
the brick 50. In an alternative embodiment, the incision 30 may be wider than illustrated
in Figure 1 to the extent that it forms a cut-away portion (not illustrated) between
the side panel 22 and the front panel 26.
[0022] Hence, in its folded state, the blank 10 forms a cavity tray comprised of a single
or continuous sheet of material and therefore comprises no joints or seams that may
become susceptible to leakage. Referring now to Figures 3 and 5, the cavity tray 10
is shown, in use, incorporated into an outer wall 52 of a cavity wall 60 (not shown
in Figure 3). In Figure 3, a plurality of cavity trays 10 are incorporated into a
respective brick layer of the outer wall 52 in a stepped or staggered arrangement
such that the front panel 26 of one cavity tray 10 overlaps the front panel 26 of
an adjacent cavity tray 10. A plurality of calibrations (not shown) may be provided
on at least a portion of an edge 37 of the first end 36 to enable a user to align
adjacent cavity trays, as desired.
[0023] Figure 5 shows a sectioned view of the cavity wall 60 comprising the outer wall 52
having an inner face 58, an inner wall 57, a cavity 53 defined therebetween and cavity
insulation 55. A second embodiment of the cavity tray 10' is shown incorporated into
the outer wall 52, the second embodiment differing from the first embodiment only
in respect of the shape of the front panel 26, as is described in more detail hereinafter.
[0024] The following description applies equally to both embodiments of cavity tray 10,
10'. The cavity tray 10, 10' is placed in the outer wall 52 with the back panel 20
adjacent or substantially abutting'the inner face 58 of the outer wall 52. The arrangement
is such that moisture running down the inner face 58 is able to pass between the inner
face 58 and the back plate 20 In an alternative arrangement (not illustrated), the
cavity tray may be adapted so that the back panel 20 is obliquely disposed to the
inner face 58 (i.e. makes an acute angle with the inner face 58) so as to extend,
for example, approximately half way across the cavity 53, or even to touch the inner
wall 57 of the cavity wall 60. As most of the moisture (not shown) in the cavity 53
accumulates on the inner face 58, the moisture runs down into the cavity tray 10 and
is transported externally of the outer wall 52. To this end one or more channels (not
shown) may be formed in the, in use, upper surface of the base panel 12, the or each
channel being arranged to direct moisture to the location of the fold line 18 (and
hence to the exterior of the outer wall 52).
[0025] Referring now to Figure 4, cavity trays 10 are shown, incorporated into an outer
wall 52 adjacent which is an abutting pitched roof 54 including a plurality of roof
tiles 56. A conduit (not shown) is advantageously provided below the cavity trays
10 where the pitched roof 54 meets the outer wall 52 to direct collected moisture
towards a drain or the like (not shown). The whole length of the abutting pitched
roof 54 should be protected from moisture gathering thereon in this way. The angle
R of the front panel 26 may be selected in order to suit the pitch of a particular
abutting roof.
[0026] In Figure 5, the cavity tray 10' includes a'curved tail portion 70 formed integrally
with the front panel 26. The curved tail portion 70 eliminates the requirement of
an additional conduit, or the like, to be used, as the curved tail portion 70 would
itself direct said moisture to a drain or the like.
[0027] Figure 6 shows the cavity tray 10 including an optional hollow, or indentation 15,
provided in the base panel 12 at the side 32 and adjacent the back panel 20. The hollow
15 is concave and so forms a convex protuberance in the reverse face (i.e. underside)
of the.base panel 12. In use, moisture may gather in the hollow 15. The shape of the
hollow 15, and in particular its convex underside, causes the moisture to drip from
the hollow 15 downwardly into the tray 10 below (see Figure 3) and prevents the moisture
from travelling along the reverse face of the base panel 12 whereupon it may escape
from the cavity tray 10 and any neighboring cavity trays.
[0028] A third embodiment (not shown) of the cavity tray comprises a front panel which extends,
in use, directly over the roof tiles 56 on the pitched roof 54, preferably being substantially
in register with said roof tiles 56. As a result, the front panels, being overlapped
and slanted over the roof tiles 56, again obviate the need for a separate conduit
or the like.
[0029] A fourth embodiment (not shown) of the cavity tray comprises an integral second side
wall panel and associated overlap panel at the first side 32 of the blank 10. The
second side wall panel and the second overlap panel may have approximately the same
shape and dimensions as the side wall panel 22 and the overlap panel 24 previously
described herein, and be located substantially opposite to the panels 22, 24. Thus,
the second side wall panel may extend from the side 32 between the first and second
fold lines 14, 18, and the second overlap panel may extend from between the first
fold line 14 and the first end 36 of the blank. In use, the second side wall panel
and associated overlap panel may be foldable in a manner similar to that described
above in relation to the side panel 22 and overlap panel 24. This fourth embodiment
may be used, for example, as a so-called starter tray, which is generally used as
the first tray in a series of cavity trays being built into an outer wall 52.
[0030] All of the preferred embodiments include the integral second wall panel 26. Therefore,
the one-piece structure of the cavity tray of the present invention eliminates the
need for a separate lead flashing and for a joint or seam for attaching same.
[0031] Although the cavity tray formed from the blank 10 of the present invention has been
described primarily as an abutment.cavity tray, the cavity tray may be adapted as
necessary to be used as, for example, a horizontal cavity tray (at the junction between
vertical cavity wall's and flat roof structures); a parapet cavity tray; or a lintel
cavity tray.
[0032] The invention is not limited to the embodiments described herein which may be modified
or varied without departing from the scope of the invention, as defined by the appended
claims.
1. A cavity tray (10) comprising a base panel (12); a first wall (20) extending from
a first side (14) of the base panel (12); and a second wall (22) extending from a
second side (16) of the base panel (12), the second side being adjacent the first
side, wherein an overlap panel (24) is provided between the first and second walls
(20, 22), at least a portion of the overlap panel (24) being folded behind one or
other of said first and second walls (20, 22), a front panel (26) at the side of the
base panel (12) opposite to the first wall (20), and wherein the base panel (12),
the first and second walls (20, 22), the overlap panel (24) and the front panel (26)
are formed from a substantially continuous sheet of material characterised in that the sheet is further shaped to define a cut-away portion (30) between the second
wall (22) and the front panel (26), the front panel (26) extending from the base panel
(12) in a direction generally opposite the direction in which the first and second
walls (20, 22) extend.
2. A cavity tray as claimed in Claim 1, wherein said sheet of material is foldable between
an unfolded state, in which it is substantially planar, and a folded state, in which
it forms the cavity tray.
3. A cavity tray as claimed in Claim 1 or 2, wherein said base panel (12), first wall
(20) and second wall (22) each lie in a respective plane, each planes being generally
perpendicular to each other plane.
4. A cavity tray as claimed in Claim 2, wherein, in the unfolded state, the base panel
(12), the first wall (20), the second wall (22) and the overlap panel (24) individually
and collectively are substantially rectangular in shape.
5. A cavity tray as claimed in any preceding claim, wherein the obverse face of the base
panel (12) is shaped to define a hollow at the side (32) of the base panel (12) opposite
to the second wall (22) and adjacent the first wall (20).
6. A cavity tray as claimed in any preceding claim, wherein a third wall extends from
the side of the base panel (12) opposite to the second wall (22) and a second overlap
panel is provided between the third wall and the first wall (20).
7. A cavity tray as claimed in any preceding claim, wherein the sheet comprises flexible,
non-resilient material which is capable of holding the shape into which it is folded.
8. A method of forming a cavity tray from a blank (10), the method comprising folding
the blank (10) along a first fold line (14) to create a first wall (20); folding the
blank (10) along a third fold line (16), being substantially perpendicular to said
first fold line (14), to create a second wall (22) adjacent the first wall (20), the
blank being shaped to provide an overlap panel between the first and second walls
and wherein the method further includes folding the overlap panel behind one or other
of the first and second walls (20, 22), folding the blank (10) along a second fold
line (18) to create a front panel (26), characterised in that the method further comprises providing a cut-away portion (30) between the second
wall (22) and the front panel (26).
1. Hohlraumeinsatz (10), umfassend eine Grundplatte (12); eine erste Wand (20), die sich
von einer ersten Seite (14) der Grundplatte (12) erstreckt; und eine zweite Wand (22),
die sich von einer zweiten Seite (16) der Grundplatte (12) erstreckt; wobei die zweite
Seite an die erste Seite angrenzt, wobei eine Überlappungsplatte (24) zwischen der
ersten und zweiten Wand (20, 22) vorgesehen ist, wenigstens ein Teil der Überlappungsplatte
(24) hinter eine oder die andere der ersten und zweiten Wand (20, 22) gefaltet wird,
eine Frontplatte (26) auf der Seite der Grundplatte (12) gegenüberliegend der ersten
Wand (20), und wobei die Grundplatte (12), die erste und zweite Wand (20, 22), die
Überlappungsplatte (24) und die Frontplatte (26) aus einer im Wesentlichen durchgehenden
Materialbahn gebildet werden, dadurch gekennzeichnet, dass die Bahn weiter geformt ist, um einen weg geschnittenen Teil (30) zwischen der zweiten
Wand (22) und der Frontplatte (26) zu begrenzen, wobei sich die Frontplatte (26) von
der Grundplatte (12) in einer Richtung allgemein entgegengesetzt der Richtung erstreckt,
in die sich die erste und zweite Wand (20, 22) erstrecken.
2. Hohlraumeinsatz nach Anspruch 1, bei dem die Materialbahn zwischen einem nicht gefalteten
Zustand, in dem sie im Wesentlichen eben ist, und einem gefalteten Zustand faltbar
ist, in dem sie den Hohlraumeinsatz bildet.
3. Hohlraumeinsatz nach Anspruch 1 oder 2, bei dem die Grundplatte (12), die erste Wand
(20) und die zweite Wand (22) jeweils in einer jeweiligen Ebene liegen, wobei jede
Ebene allgemein senkrecht zu jeder anderen Ebene ist.
4. Hohlraumeinsatz nach Anspruch 2, bei dem, im nicht gefalteten Zustand, die Grundplatte
(12), die erste Wand (20), die zweite Wand (22) und die Überlappungsplatte (24) einzeln
und gemeinsam eine im Wesentlichen rechteckige Form aufweisen.
5. Hohlraumeinsatz nach einem vorhergehenden Anspruch, bei dem die Vorderfläche der Grundplatte
(12) geformt ist, um einen Hohlraum auf der Seite (32) der Grundplatte (12) gegenüberliegend
der zweiten Wand (22) und angrenzend an die erste Wand (20) zu begrenzen.
6. Hohlraumeinsatz nach einem vorhergehenden Anspruch, bei dem sich eine dritte Wand
von der Seite der Grundplatte (12) gegenüberliegend der zweiten Wand (22) erstreckt
und eine zweite Überlappungsplatte zwischen der dritten Wand und der ersten Wand (20)
vorgesehen ist.
7. Hohlraumeinsatz nach einem vorhergehenden Anspruch, bei dem die Bahn ein flexibles,
nicht elastisches Material aufweist, das die Form halten kann, in die es gefaltet
wird.
8. Verfahren zum Bilden eines Hohlraumeinsatzes aus einem Rohling (10), wobei das Verfahren
Falten des Rohlings (10) entlang einer ersten Faltlinie (14) zum Erzeugen einer ersten
Wand (20); Falten des Rohlings (10) entlang einer dritten Faltlinie (16) umfasst,
die im Wesentlichen senkrecht zu der ersten Faltlinie (14) ist, zum Erzeugen einer
zweiten Wand (22) angrenzend an die erste Wand (20), wobei der Rohling geformt ist,
um eine Überlappungsplatte zwischen der ersten und zweiten Wand zu schaffen, und wobei
das Verfahren weiter Falten der Überlappungsplatte hinter eine oder die andere der
ersten und zweiten Wand (20, 22), und Falten des Rohlings (10) entlang einer zweiten
Faltlinie (18) zum Erzeugen einer Frontplatte (26) einschließt, dadurch gekennzeichnet, dass das Verfahren weiter aufweist, einen weg geschnittenen Teil (30) zwischen der zweiten
Wand (22) und der Frontplatte (26) vorzusehen.
1. Une cuvette d'étanchement (10) comportant un panneau de base (12) ; un premier battant
(20) s'étendant depuis un premier côté (14) du panneau de base (12) ; et un deuxième
battant (22) s'étendant depuis un deuxième côté (16) du panneau de base (12), le deuxième
côté étant adjacent au premier côté, où un panneau de recouvrement (24) est prévu
entre le premier et le deuxième battants (20, 22), au moins une partie du panneau
de recouvrement (24) étant pliée derrière l'un ou l'autre desdit premier et deuxième
battants (20, 22), un panneau avant (26) sur le côté du panneau de base (12) à l'opposé
du premier battant (20), et où le panneau de base (12), le premier et le deuxième
battants (20, 22), le panneau de recouvrement (24) et le panneau avant (26) sont formés
à partir d'une feuille sensiblement continue de matière, caractérisé en ce que la feuille est en outre de forme telle qu'elle définit une partie découpée (30) entre
le deuxième battant (22) et le panneau avant (26), le panneau avant (26) s'étendant
depuis le panneau de base (12) dans une direction généralement opposée à celle où
le premier et le deuxième battants (20, 22) s'étendent.
2. Une cuvette d'étanchement conforme à la Revendication 1, où ladite feuille de matière
est pliable entre un état non plié, dans lequel elle est sensiblement plane, et un
état plié, dans lequel elle forme la cuvette d'étanchement.
3. Une cuvette d'étanchement conforme à la Revendication 1 ou 2, où ledit panneau de
base (12), le premier battant (20) et le deuxième battant (22) s'étendent chacun dans
un plan respectif, chaque plan étant généralement perpendiculaire à chaque autre plan.
4. Une cuvette d'étanchement conforme à la Revendication 2, où, dans l'état non plié,
le panneau de base (12), le premier battant (20), le deuxième battant (22) et le panneau
de recouvrement (24), individuellement et collectivement, sont sensiblement de forme
rectangulaire.
5. Une cuvette d'étanchement conforme à l'une quelconque des revendications précédentes,
où la face recto du panneau de base (12) a une forme telle qu'elle définit un creux
au côté (32) du panneau de base (12) à l'opposé du deuxième battant (22) et en position
adjacente au premier battant (20).
6. Une cuvette d'étanchement conforme à l'une quelconque des revendications précédentes,
où un troisième battant s'étend depuis le côté du panneau de base (12) à l'opposé
du deuxième battant (22) et un deuxième panneau de recouvrement est prévu entre le
troisième battant et le premier battant (20).
7. Une cuvette d'étanchement conforme à l'une quelconque des revendications précédentes,
où la feuille comprend une matière flexible, non élastique, qui est capable de garder
la forme dans laquelle elle est pliée.
8. Un procédé pour former une cuvette d'étanchement à partir d'une découpe (10), le procédé
comprenant le pliage de la découpe (10) le long d'une première ligne de pliage (14)
pour créer un premier battant (20) ; le pliage de la découpe (10) le long d'une troisième
ligne de pliage (16), étant sensiblement perpendiculaire à ladite première ligne de
pliage (14), pour créer un deuxième battant (22) adjacent au premier battant (20),
la découpe ayant une forme telle qu'elle fournit un panneau de recouvrement entre
le premier et le deuxième battants et où le procédé comprend en outre le pliage du
panneau de recouvrement derrière l'une ou l'autre des premier et deuxième battants
(20, 22), le pliage de la découpe (10) le long d'une deuxième ligne de pliage (18)
pour créer un panneau avant (26), caractérisé en ce que le procédé comporte en outre une partie évidée (30) entre le deuxième battant (22)
et le panneau avant (26).