Flashing for closing openings present between a straight and a profiled portion of a roof

Description

[0001] The invention relates to a flashing made of plastic and shaped to obstruct remaining apertures between a straight part and a profiled part of a roof construction, said flashing comprising an attachment portion with which the flashing is attachable to the straight roof part, such as a ridge tile, and further comprising a flashing portion being at least partly corrugated, the corrugated part being of supply depliable material with the result that the flashing portion is spredable like a fan and yieldingly bendable due to pressure exerted by the profiled roof part, and that the course of the outer edge of the flashing portion substantially adapts itself to the shape of the profiled roof part, such as tiles.

[0002] Such a kind of a flashing is disclosed in EP-A-0 117 391 and said known flashing is shaped in such a way that it can be positioned exclusively beneath a ridge tile. Moreover the attachment portion of this known flashing is comb-shaped with teeth and a strip of flexible and corrugated material is attached by welding or glueing to these teeth, the height of the corrugations being equal over the width of the strip.

[0003] The invention aims at obstructing the mentioned apertures not only at a ridge tile, but also between tiles and a hip roof tile or between tiles and a skylight or between the lower row of tiles of a slooping roof and the roof construction such, that on the one hand no powder snow and/or rainwater can penetrate through those apertures, but on the other hand passages yet remain open for ventilation air. In another aspect, the invention aims at manufacturing said flashing in a simple, cheap way.

[0004] Further EP-A-0 277 497 describes a flashing the corrugated part of which is made of lead, but not only lead is more expensive than plastic, but moreover is much less deformable than a thin layer of plastic. The intention of the invented flashing portion is that, when pressed against roof tiles, it adapts itself to the shape of those roof tiles without further intervention from the outside, but even with a very thin layer of lead this cannot take place. Moreover the flashing portion made of lead and the attachment portion of the known flashing are made as two separate elements, the attachment portion being made of material other than lead. Because of this, this known flashing is more expensive than when the flashing portion and the attachment portion are integrally formed as is suggested by the invention.

[0005] For these purposes the invented flashing is substantially characterized in that the height of the corrugations decreases from the outer edge of the flashing portion in the direction towards the attachment portion, the flashing portion being free of thick supporting means and being integrally formed with the attachment portion.

[0006] Because the invented flashing portion is integrally formed the entire flashing can be manufactured in a simple and cheap manner, and yet the flashing portion adjusts well to the profiled roof part by spreading fan-like and yieldingly bending.

[0007] The invented flashing can be adapted for positioning at the lower end of a sloping roof construction and this flashing is then particularly characterized in that the attachment portion comprises transverse stiffening profiles, the bottom of which is attachable to the straight roof part, resulting in that those parts of the attachment portion, that are formed between the stiffening profiles, are spaced from the straight roof part, resulting in that ventilation air can flow between the straight roof part and the parts of the attachment portion spaced therefrom. A special embodiment of this flashing is characterized in that the flashing is formed to be attached at the lower edge of a slopping roof, the margin of the attachment portion, which faces away from the flashing portion, joining a skirt which is spaced such from the straight roof part and the parts of a gutter that ventilation air can flow behind the skirt and/or the gutter to the spaces between the straight roof part and the parts of the attachment portion spaced therefrom.

[0008] When the invented flashing is formed to be positioned beneath a ridge tile, then this flashing can be characterized in that partitions are formed on and extend longitudinally along the attachment portion and/or the ridge tile to be able to form a zig-zag passage for ventilation air.

[0009] Other embodiments of the invented flashings are indicated in the accompanying claims 5, 6 and 7.

[0010] The invention will be further elucidated in the following description of the examples of embodiment of the invented flashing as indicated in the accompanying drawings in which:

figure 1 is an end view of an embodiment of the invented flashing meant and applied to link up to the bottom row of tiles and attached to the roof boarding of a sloping roof indicated in vertical cross-section;

figure 2 is a bottom view in perspective of the embodiment of the flashing according to figure 1, the arrow I indicating the direction in which the end view shown in figure 1 is seen;

figure 3 is a view on the corrugated part of the flashing seen in the direction of arrow III in figure 2;

figure 4 is a cross-section of an embodiment of the invented flashing and a ridge tile adapted to this embodiment;

figure 5 is a view in perspective of the flashing, ridge tiles and tiles, arrow IV indicating the direction in which the cross-section shown in figure 4 is seen;

figure 6 is a view on the flashing and a cross-section of the ridge tile seen in the direction of the arrow VI in figure 4;

[0011] First the main embodiment as shown in figures 1, 2 and 3 of the invented flashing will be discussed. Figure 1 shows a vertical cross-section of the lower edge of a roof boarding 1 of a sloping roof. On that in itself known roof boarding a gutter bracket batten 4 is fixed, shown in cross-section in figure 1, the gutter bracket batten having mounted onto it the in itself known brackets 2, of which in figure 1 only one bracket is drawn, for carrying an in itself known gutter 3 of which in figure 1 only the right part is shown in vertical cross-section.

[0012] On the gutter bracket batten 4 an embodiment of the invented flashing 5 as shown in figure 1 is mounted by means of nails, wood screws or other in themselves known attachment means 6. The flashing 5 comprises according to the end view in figure 1 and the bottom view in figure 2 an attachment portion 7 and a flashing portion 8 which are preferably made as an integral product of plastic.

[0013] The attachment portion 7 of the flashing 5 is as shown in figures 1 and 2, provided with attachment surfaces 13, a passage being provided between each pair of adjacent attachment surfaces 13, the bottom 14 of this passage being at a lower level than the attachment surfaces 13, which is in accordance with figure 1. As a result the attachment surfaces 13 are positioned in figure 1 flat against the gutter bracket batten 4, whereas the bottoms 14 are lying at a distance from the gutter bracket batten 4, resulting in that between each bottom 14 and the gutter bracket batten a passage is present along which ventilation along the dotted lines in figure 1 is possible, from the outside air to the space between the tiles 11 and the roof boarding 1, or in opposite direction. Furthermore, the wall parts 15 between the bottoms 14 and the attachment surfaces 13 make the attachment portion 7 stiffer, which is desirable. Moreover, every gutter bracket 2 can extend through a relevant passage between the gutter bracket batten 4 and the involved bottom 14. As a result the necessity for passages in the gutter bracket batten 4 for gutter brackets 2 is avoided and the gutter brackets can simply be mounted on the gutter bracket batten.

[0014] The flashing portion 8 is made of sheet like, thin plastic, the height of the corrugations 9 decreasing from the outer edge 10 of the flashing portion in the direction to the attachment portion 7 of the flashing. The flashing portion 8 is preferably free from thickenings. Due to the corrugated shape, the flashing portion 8 is supply fan-like spreadable in a direction perpendicular to the corrugations 9. The corrugations are increasingly depliable towards edge 10, so that fan-like spreading of the flashing portion 8 occurs with the highest possible degree of spreading at the edge 10 of the flashing portion.

[0015] In figure 1 dotted-dashed lines indicate the flashing portion 8 of the flashing in its position free of external infuences. Furthermore, in figure 1 a tile 11 partly in side-view and partly in cross-section is shown, the tile bearing on the bottom 14 of the attachment portion 7 of the flashing. The tile 11 is profiled in a corrugated or in another way as is common usage with tiles, in the plane perpendicular to its length and therefore perpendicular to the plane of figure 1. Due to the transverse profile and the weight of the tile, the flashing portion 8 is not only bent as indicated schematically in figure 1 from the position indicated by dotted-dashed lines to the right with regard to the attachement portion 7 fixed on the gutter bracket batten 4, but the edge 10 of the flashing portion also substantially adjusts to the transverse profile of the tile 11. This adjustment is possible because of the corrugated shape of flashing portion 8, as the corrugations 9 enable fan-like spreading.

[0016] When free of the tile 11, the corrugation tops of the flashing portion 8 are positioned on a straight line 18 shown in figure 3 by the transverse profile of the tile, but the corrugation tops are brought into a position on a line which substantially follows that profile, resulting in that the corrugation tops are not only no longer positioned on a straight line 18, but are also spaced at larger intervals due to the fan-like spreading. This fan-like spreading is the result of no other influences than the weight and the transverse profile of the tile, which is only possible because of the supple adjustability of the material the flashing portion is made of. This supple adjustability is a result of the slight thickness and the nature of that material, such as PVC-foil, in combination with the corrugations 9.

[0017] Moreover, the flanks of the corrugations 9 cause a yielding pressure of the flashing portion 8 against the tile 11, resulting in that the flashing portion is pressed by the tile from its not influenced position, shown by dotted and dashed lines in figure 1 , into the position bent to the right in figure 1, yet at the same time the flashing portion resists the pressure of the tile in so far that the corrugation tops are pressed at least substantially against the tile, even adapting to the transverse profile of the tile.

[0018] The invented corrugations 9 in the flashing portion 8 therefore in the first place produce a fan-like spreadability and in the second place produce yielding pressure as it were in the direction of pivoting back to the position of the flashing portion not being influenced by a tile. It is observed, however, that in figure 2 for sake of simplicity only a small part of the corrugations 9 is depicted, but in reality the flashing portion 8 is provided with corrugations 9 over its entire length.

[0019] The object of the invented flashing, which is to obstruct the apertures between gutter bracket batten 4 and the tile 11, is realized by the flashing portion 8, resulting in that no powder snow can penetrate into the apace between the tiles 11 and the roof boarding 1.

[0020] A deepened part 16 is preferably present in every attachment surface 13, through which an attachment means 6, such as a nail or a screw is insertable for fixing the flashing onto the batten 4.

[0021] In figure 2 only a part of flashing 5 is depicted, as the remaining part is embodied similar to the depicted part. The not depicted left end is embodied complementary to the right end with at least one attachment surface 13, so that the right end of the depicted flashing can be put over the left end of a non-depicted flashing positioned to the right of the depicted flashing, in order to position a series of flashings linking up to eachother along the entire length of the lower edge of a sloping roof.

[0022] In a special embodiment as shown in figure 2, the attachment portion 7 of the flashing 5 links up to a skirt 12 which is insertable into gutter 3 as shown in figure 1. This construction prevents spurting water, rain or powder snow from contacting the roof boarding 1 and the batten 4, with at the same time continued capability of ventilation along the dotted line in figure 1, therefore passing behind the skirt 12 and/or the gutter 3 and via the apertures between the gutter bracket batten 4 and the bottoms 14 of the flashing portion 7.

[0023] The skirt 12 and its connection to the attachment portion 7 are preferably stiffened by rib means 17. The rib means 17 also serve to keep the skirt 12 spaced from the right vertical wall of the gutter 3 for the purpose of ventilation along the dotted line in figure 1. The flashing portion 8, the attachment portion 7, the skirt 12 and the rib means 17 are preferably made of plastic as an integral product.

[0024] Another main embodiment of the invention concerns the application of the invented flashing portion in a ridge shown in figures 4, 5 and 6. Figure 4 shows a vertical cross-section of the top of a roof sloping to the left and the right, having a left and right roof board 21 which link up to a ridge board 22, e.g. a rafter of which the cross-section is shown by figure 4. On the roof board tile battens 24 are mounted for carrying tiles 31. Roof board, ridge board and tile battens are in itself known.

[0025] The invented flashing 25 comprises according to figure 4 a flashing portion 28 and an attachment portion 27, which are preferably made of plastic as an integral product. The attachment portion 27 is preferably attached or attachable to a ridge tile 23, but the attachment portion can also be embodied in such a way that it is attachable to the ridge board 22 or to a means mounted thereon. In the latter case the embodiment of the invented flashing may comprise a centrally situated, to the ridge board 22 attachable attachment portion with on the left and right a flashing portion. This embodiment can easily be deduced from figure 4 and is therefore not depicted.

[0026] The ridge tile 23 is in figure 4 shown in cross-section and in figure 6 in longitudinal cross-section, while figure 5 shows in perspective a number of ridge tiles linked up to eachother. The ridge tile 23 is according to figures 4 and 6 provided with rib means 32 (according to figure 6 a number of six rib means) having recesses which are substantially shaped complementary to the shape of the attachment portion 27 of the flashing 25, so that the attachment portion 27 is insertable into the recesses of the rib means 32, resulting in that the position of the flashing 25 in relation to the ridge tile 23 is fixed. Moreover, the ridge tile is provided with sleeve like parts 33, in which pin like parts 34 of the attachment portion 27 are insertable, resulting in that the attachment portion is then attached to the ridge tile.

[0027] Furthermore, as shown in figure 4, the ridge tile 23 is provided with a first shaped gate 35 and a second shaped gate 36 shown in figure 6. Herein, the first shaped gate 35 is in a ridge tile which is positioned to the right of the ridge tile shown in figure 6, said first shaped gate being mountable above the second shaped gate 36 of the ridge tile shown in figure 6. As a result, as shown in figure 4, two adjacent ridge tiles are fixable to the ridge board 22 by one and the same attachment means 26, such as a nail or a wood screw, resulting in that the ridge tiles link up to eachother rainwater and powder snow proof.

[0028] To the right in figure 4 the flashing 25 attached to the ridge tile 23 is indicated with the flashing portion 28 in a position free of influences from outside. To the left in figure 4, the flashing portion 28 is indicated bearing against a tile 31, resulting in that the flashing portion seals against the tile as the flashing portion is embodied and functions in the same way as the flashing portion 8 shown in the figures 1, 2, and 3, so that for brevity's sake the extensive discussion of the flashing portion 8 is referred to. In addition, it is only observed that the flashing portion 8 presses as shown in figure 1 against the bottom of tile 11, while in figures 4 and 5 the flashing portion 28 presses upon a tile 31. Figure 4 shows this tile 31 partly in a longitudinal view and partly in a cross-section, whereby it appears from figure 5 that this tile in the plane perpendicularly to the length of the tile, therefore perpendicular to the plane of figure 1, is profiled in a corrugated or in another way, such as is general use with tiles.

[0029] The flashing portion 28 shown in figures 4 and 6 is, as is the case with the flashing portion 8 shown in figures 2 and 3, exclusively made of sheet-like, thin plastic and is corrugated, the height of the corrugations 29 decreasing from the outer edge 30 of the flashing portion in the direction of the attachment portion 27, so the outer edge 30 can be corrugated as shown in figure 3.

[0030] Just as with the flashing portion 8 shown in figure 1, the corrugations 29 shown in figure 6 result in a supple fan-like spreadability of the flashing portion 28 and in a yieldingly urging of the flashing portion upon the tile 31 because the flashing portion wants to pivot back as it were to its free position indicated on the right in figure 4. It is however observed that in figure 6 for simplicity's sake only a small number of corrugations 29 have been depicted, but that in reality the flashing portion 28 is provided with corrugations 29 along its entire length.

[0031] The ridge tile 23 is preferably provided with partitions 40 which together with flanges 37 and 38 on the attachment portion 27 of the flashing form a labyrinth-like passage so that ventilation air can pass along the dotted line indicated in figure 1 for ventilation between the space underneath the tiles 31 and the open air, while at the same time penetration of rainwater and/or powder snow is resisted by the flashing portion 28 and by the combination of the partitions 40 with the flanges 37 and 38.

[0032] A variation of the flashing 25 shown in figure 4 can be provided with a thin bridge part 39 between the flashing portion 28 and the attachment portion 27, the bridge part functioning as a hinge, with the result that during transport the right flashing portion in figure 4 can be held pivoted to the left in a horizontal position in order to ensure that the ridge tile 23 with both flashings 25 takes up less space. Naturally, the left flashing portion 28 is then pivoted to the right.

[0033] For a hip rafter, which is a sloping transition between two intersecting, sloping parts of a roof, flashings can be applied with a shape and function as follows in principle from the embodiment shown in figures 4, 5 and 6 and the corresponding description. In connection, ridge tiles can be applied with a shape and function as follows in principle from figures 4, 5 and 6 and the accompanying description. In that case the tiles do not enclose a right angle with the ridge tile as according to figure 5, but a sharp angle, as the row of ridge tiles in that case slopes downward. After the extensive description of the embodiment shown in figures 4, 5 and 6, a description of the hip rafter is superfluous, for the flashing portion in this case as well urges sealingly against the tiles as the flashing portion is provided with the invented corrugations and therefore is supply, fan-like spreadable and presses yieldingly bent against the tiles, while the attachment portion, be it via or not via a roof ridge tile, is attached to the roof construction.

[0034] The principle of the invented flashing can also be applied to a flashing for sealing the transition between the frame of a skylight and the surrounding roof covering. The flashing then also links up to the tiles as the flashing portion is provided with the invented corrugations and therefore is supply fan-like spreadable and presses yieldingly bent against tiles, with the result that no powder snow, rainwater and/or birds can penetrate till underneath the tiles. Therefore a description of the flashing designed for this application is superfluous after the extensive description with the drawings.

Claims

1. A flashing (5 or 25) made of plastic and shaped to obstruct apertures remaining between a straight part (4 or 23) and a profiled part (11 or 31) of a roof construction, said flashing (5 or 25) comprising an attachment portion (7 or 27) by which the flashing is attachable to the straight roof part (4 or 23), such as a ridge tile, and further comprising a flashing portion (8 or 28) being at least partly corrugated, the corrugated part being of supply depliable material with the result that the flashing portion (8 or 28) is spreadable like a fan and yieldingly bendable due to pressure exerted by the profiled roof part (11 or 31), and that the course of the outer edge (10 or 30) of the flashing portion (8 or 28) substantially adapts itself to the shape of the profiled roof part, such as tiles (11 or 31), characterized in that the height of the corrugations (9 or 29) decreases from the outer edge (10 or 31) of the flashing portion (8 or 28) in the direction towards the attachment portion (7 or 27), the flashing portion (8 or 28) being free of thick supporting means and being integrally formed with the attachment portion (7 or 27).

2. A flashing according to claim 1, characterized in that the attachment portion (7) comprises transverse stiffening profiles (15, 13), the bottom (13) of which is attachable to the straight roof part (4), with the result that those parts (14) of the attachment portion (7), that are formed between the stiffening profiles (15, 13), are spaced from the straight roof part (4), and that ventilation air can flow between the straight roof portion (4) and the parts (14) of the attachment portion (7) spaced therefrom.

3. A flashing according claim 2, characterized in that the flashing (5) is designed to be attached adjacent to the lower edge of a slooping roof, the margin of the attachment portion (7) facing away from the flashing portion (8) joining a skirt (12) which is spaced from the straight roof part (4) and the parts of a gutter (3), such that ventilation air can flow behind the skirt (12) and/or the gutter (3) to the spaces between the straight roof part (4) and the parts (14) of the attachment portion (7) spaced therefrom.

4. A flashing according to claim 1, characterized in that partitions (37, 40) are formed on and extend longitudinally along the attachment portion (27) and/or the ridge tile (23) to form a zig-zag shaped passage for ventilation air.

5. A flashing according to any of the preceding claims, characterized in that the one and other head end of each flashing (5 or 25) are complementarily formed, so that the flashings can be linked in continuous series.

6. A flashing according to claim 4 or otherwise claim 5 in connection with claim 4, characterized in that the flashing (25) and optionally a corresponding hip roof tile (23) are made for use at a hip rafter.

7. A flashing according to claim 1, characterized in that the flashing (5) is shaped to join at one side a sky-light and at the other side surrounding roof tiles (11).

Ansprüche

1. Dachfugenabdeckkörper (5 oder 25) aus Kunststoff und zum Versperren von zwischen einem rechten Teil (4 oder 23) und einem profilierten Teil (11 oder 31) einer Dachkonstruktion übrigbleibenden Öffnungen, welcher Dachfugenabdeckkörper (5 oder 25) mit einem Befestigungsteil (7 oder 27) versehen ist, womit der Dachfugenabdeckkörper an den rechten Dachteil (4 oder 23) wie ein Dachfirstziegel, befestigt werden kann und weiter mit einem Dachfugenabdeckkörperteil (8 oder 28) versehen ist, der wenigstens teilweise gewellt ist, wobei der gewellte Teil von biegsamen entfaltbaren Material ist, so dass der Dachfugenabdeckkörperteil (8 oder 28) fächerartig verbeitbar und nachgebend biegbar ist wegen durch den profilierten Dachteil (11 oder 31) ausgeübten Druckes, so dass der Verlauf des Aussenrands (10 oder 30) des Dachfugenabdeckkörpers (8 oder 28) sich hauptsächlich an die Form des profilierten Dachteils, wie Dachziegel (11 oder 31) anpasst, dadurch gekennzeichnet, dass die Höhe der Wellen (9 oder 29) ab dem Aussenrand (10 oder 31) des Dachfugenabdeckkörperteils (8 oder 28) in der Richtung nach dem Befestigungsteil (7 oder 27) abnimmt, wobei der Dachfugenkörperteil (8 oder 28) frei von verdickten Tragmitteln ist und als ein Ganzes mit dem Befestigungsteil (7 oder 27) hergestellt ist.

2. Dachfugenabdeckkörper nach dem Anspruch 1, dadurch gekennzeichnet, dass der Befestigungsteil (7) mit quer verlaufenden Versteifungsprofilen (15, 13) versehen ist, deren Boden (13) auf den rechten Dachteil (4) befestigt werden kann, so dass die zwischen den Versteifungsprofilen (15, 13) angeordneten Teilen (14) des Befestigungsteils (7) in einer Distanz von dem rechten Dachteils (4) angeordnet sind, so dass zwischen dem rechten Dachteil (4) und den in einer Distanz davon angeordneten Teilen (14) des Befestigungsteils (7) ventilierende Luft fliessen kann.

3. Dachfugenabdeckkörper nach dem Anspruch 2, dadurch gekennzeichnet, dass das Dachfugenabdeckkörper (5) derartig ausgebildet ist, dass es beim Unterrand eines schrägen Dachs befestigt werden kann, wobei der vom Dachfugenabdeckkörperteil (8) abgewandte Rand des Befestigungsteils (7) auf eine Schürze (12) anschliesst, die derartig von dem rechten Dachteils (4) und den Teilen einer Dachrinne (3) entfernt angeordnet ist, dass ventilierende Luft hinter der Schürze (12) und/oder der Dachrinne (3) nach den Räumen zwischen dem rechten Dachteil (4) und den auf einer Distanz davon angeordneten Teilen (14) des Befestigungsteils (7) fliessen kann.

4. Dachfugenabdeckkörper nach dem Anspruch 1, dadurch gekennzeichnet, dass an dem Befestigungsteil (27) und/oder dem Dachfirstziegel (23) in Längsrichtung sich erstreckende Wanden (37, 40) gebildet sind um einen zichzackförmigen Durchgang für ventilierende Luft zu bilden.

5. Dachfugenabdeckkörper nach einem der vorhergehenden Ansprüche, dadurch gekennzeichnet, dass das eine und das andere Kopfende des Dachfugenabdeckkörpers (5 oder 25) komplementär ausgestaltet sind, so dass die Dachfugenabdeckkörper in einer Reihe aufeinander anschliessend angeordnet werden können.

6. Dachfugenabdeckkörper nach dem Anspruch 4 oder Anspruch 5 in Zusammenhang mit dem Anspruch 4, dadurch gekennzeichnet, dass der Dachfugenabdeckkörper (25) und eventuell ein dazugehöriger Dachfirstziegel (23) zum Gebrauch als Gratsparren ausgebildet sind.

7. Dachfugenabdeckkörper nach dem Anspruch 1, dadurch gekennzeichnet, dass der Dachfugenabdeckkörper (5) ausgestaltet ist um einen Abschluss zwischen einem Dachfenster und den umliegenden Dachziegeln (11) zu bilden.

Revendications

1. Rejetteau (5 ou 25) formé de matière plastique et ayant une configuration lui permettant de boucher des ouvertures restant entre une partie rectiligne (4 ou 23) et une partie profilée (11 ou 31) d'une construction de toiture, le rejetteau (5 ou 25) comprenant une partie (7 ou 27) de fixation grâce à laquelle le rejetteau peut être fixé à la partie rectiligne de toiture (4 ou 23), par exemple une tuile de faîtage, et comprenant en outre une partie de rejetteau (8 ou 28) qui est au moins partiellement ondulée, la partie ondulée étant formée d'un matériau déployable si bien que la partie de rejetteau (8 ou 28) peut être étalée en éventail et fléchit élastiquement sous l'action d'une pression exercée par la partie profilée de toiture (11 ou 31), et le profil du bord externe (10 ou 30) de la partie de rejetteau (8 ou 28) s'adapte pratiquement à la configuration de la partie profilée de toit, telle que des tuiles (11 ou 31), caractérisé en ce que la hauteur des ondulations (9 ou 29) diminue depuis le bord externe (10 ou 31) de la partie de rejetteau (8 ou 28) vers la partie de fixation (7 ou 27), la partie de rejetteau (8 ou 28) n'ayant pas de dispositif épais de support et étant formée en une seule pièce avec la partie de fixation (7 ou 27).

2. Rejetteau selon la revendication 1, caractérisé en ce que la partie de fixation (7) comporte des profilés transversaux d'armature (15 ou 13) dont le fond (13) est destiné à être fixé à une partie rectiligne de toiture (4), le résultat étant que les portions (14) de la partie de fixation (7) qui sont formées entre les profilés d'armature (15, 13) sont distantes de la partie rectiligne de toiture (4), et que l'air de ventilation peut circuler entre la partie rectiligne de toiture (4) et lesdites portions (14) de la partie de fixation (7), à distance de celles-ci.

3. Rejetteau selon la revendication 2, caractérisé en ce que le rejetteau (5) est destiné à être fixé près du bord inférieur d'une toiture en pente, la marge de la partie de fixation (7) qui est placée du côté opposé à la partie de rejetteau (8) se raccordant à une jupe (12) qui est placée à distance de la partie rectiligne de toiture (4) et de portions d'une gouttière (3), afin que l'air de ventilation puisse circuler derrière la jupe (12) et/ou la gouttière (3) vers les espaces délimités entre la partie rectiligne de toiture (4) et les portions (14) de la partie de fixation (7) qui en sont distantes.

4. Rejetteau selon la revendication 1, caractérisé en ce que des cloisons (37, 40) sont formées sur la partie de fixation (27) et/ou la tuile faîtière (23) et dépassent longitudinalement le long de cette partie ou de cette tuile, afin qu'un passage sinueux soit délimité pour la circulation de l'air de ventilation.

5. Rejetteau selon l'une quelconque des revendications précédentes, caractérisé en ce que les deux extrémités de tête de chaque rejetteau (5 ou 25) ont des formes complémentaires afin que les rejetteaux puissent être liés en série de façon continue.

6. Rejetteau selon la revendication 4 ou la revendication 5 lorsqu'elle dépend de la revendication 4, caractérisé en ce que le rejetteau (25), et, éventuellement, une tuile correspondante (23) de comble sont réalisés pour être utilisés sur un chevron de comble.

7. Rejetteau selon la revendication 1, caractérisé en ce que le rejetteau (5) a une configuration permettant son raccordement d'un côté à une lucarne faîtière et de l'autre côté à des tuiles (11) de la toiture qui l'entourent.

Drawing