PT96902A - SUPPORT ELEMENT AND REPAIR OF LOADS FOR SMALL ROOF ROOF AND ROOF COMPASS - Google Patents

Abstract

A supporting and load-distributing element (3) is disposed between a roof decking (under-roofing) (2) made from corrugated panels and roofing battens (5,9) which are perpendicular to it and which are capable of permitting the fastening of flat tiles. This element (3) consists of a tubular spacer disposed in a concave corrugation (2a) of the roof decking (under-roofing) (2), in contact on the one hand with a roofing batten (5,9) and on the other hand with the bottom of the said concave corrugation (2a). In addition, one end (3a) of the said spacer (3) comprises a retention lug (12) extending radially in order to butt up against a roofing batten (5,9) in an introduction direction (F) directed downwards from the slope of the roof. Application to the production of roofs made from flat tiles. <IMAGE>

Description

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Mod. 71-20,000 ex. - 90/08 20 25 30 63,063

Ref: 51548A EN 331 22 FE1 /. The present invention relates to a load-bearing and load-sharing element for a smooth roof tile. Roof sub-frames made of profiled materials with or without alternating waves and smooth zones are known according to repeated motifs, for example those described in FR-2,496,551 and marketed under the name &quot; Flexoutuile-Ouduline &quot;. Flexoutuile &quot; corrugated plates &quot; are particularly intended for sub-roof trusses of channel tiles. The use of this material to form the south-facing panel of tiles of the channel receives a double application. On the one hand, it is possible to use the sub-frame in a traditional way with &quot; current tiles &quot; more &quot; protection tiles &quot;; on the other hand, it is possible to avoid the use of &quot; current plates &quot;, by placing on the convex undercut curves of the roof (viewed from the outside) only &quot; protection tiles &quot;. In this case, the weight of the roof is reduced practically by half and is saved in tiles. Roof subframes made from such materials have great qualities: on the one hand, they make the roof / roof structure J impermeable, and on the other hand, they guarantee a natural ventilation of this roof. It is therefore desirable to use such materials to fabricate subframes of roofs intended for flat roof tiles. The use of flat tiles requires the fixing of slats on the sub-frame of the roof in order to be able to 35 1 5 10 15

Mod. 71-20,000 sx. - 90/08 20 25 30 63.063 Ref: 51548A EN 331

27. # lf you tie the tiles to the slats. This leads, therefore, to the fixing of slats on a sub-frame of the roof carrying materials of corrugated form. However, the attachment of slats on corrugated boards presents numerous drawbacks. Due to the undulating sub-frame shape of the roof, the weight of the slats and tiles is supported almost entirely by the top of the convex corrugations (views of the exterior of the roof) which are therefore prone to deform. As a result, the sub-frame of the roof becomes brittle and further, deformation of the corrugated plate can prevent a good ventialation of the roof, such as the flow of water eventually infiltrated through a defective tile. To mitigate these drawbacks, it has already been proposed in the French patent application No. 2. 88 13 445, a load-bearing and load-sharing element for flat roof roofs consisting of a roof sub-frame of corrugated boards whose corrugations are arranged substantially in the direction of the slope of the roof and on which are fixed a slats substantially perpendicular to the feel of said roof slope, capable of re-erecting the tiles after interposition of load-bearing and load-sharing elements between the slats and sub-frame, at completed intervals. This type of known element is each placed in contact on one side with a batten at the level of at least one convex undulation of the roof sub-frame (viewed from the outside), and on the other side with at least one concave undulation of the sub - Roofing. Each of these known elements is brought into contact with a single batten at the level of a single convex undulation of the sub-frame of the roof and with each of the two concave undulations of the sub-frame of the roof which are adjacent to said convex undulation and on one side and the other on the latter. Such elements, while providing results 35 63.063 Ref: 51548A EN 331

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Mod. 71-20,000 ex. However, in addition to their U-shaped design with a substantially flat area and two arms curved outwards, they must have a concavity corresponding to to that of the corrugations of said corrugated plates. These conformations are always of a high cost price. Above all, however, the drawback of this type of load-bearing and load-sharing element lies essentially in its use. In fact, said elements and slats are attached to the sub-frame of the corrugated sheet roof, even also to the roof support structure (timber / timber, concrete beams, etc.), by the same fastening processes . However, this has proved to be inconvenient for the installer, who must master the position of several parts at the same time, when performing the fastening operation by pre-screwing, screwing, etc. The present invention has for for this reason, a load-bearing and load-sharing element for flat roof tiles consisting of a sub-frame of the roof of corrugated boards whose corrugations are arranged substantially in the direction of the slope of the roof, on which slats substantially perpendicular to the direction of said roof slope, capable of receiving the tiles after interposition of load-bearing and load-sharing elements between the slats and the sub-frame of the roof, at determined intervals, characterized in that the support element and is a tubular strut placed in a concave corrugation of the sub-frame of the roof, in contact with a lad with one rim and the other with the bottom of said concave undulation. The use of a tubular strut for realizing the load-bearing and load-sharing member according to the invention, in addition to allowing the loads to be properly distributed in the func-

Mod. 71-20,000 ex. - 90/08 20 25 30 63.063 Ref: 51548A EN 331

of the concave undulations of the sub-frame of the roof, also has the advantage of not preventing the air from venting the roof. Advantageously, the tubular strut constituting it is a cylinder portion of which one of its ends comprises a securing heel which extends substantially radially towards the outside of said cylinder, and is apt to form a shoulder with a batten, direction towards the bottom of the roof slope. Preferably, the strut securing heel is a leg positioned protruding over the cylinder portion, and the side edges of which are confused with two ends tangent to said cylinder portion. According to one embodiment of the invention the outer diameter of the strut is at least equal to the distance between the bottom of a concave undulation and the undersurface of a batten in front of said undulation. Preferably, the outside diameter of the strut is greater than the distance between the bottom of a concave undulation and the underside of a batten in front of said corrugation. According to an ideal embodiment of the invention, the strut is obtained in monoblock through the injection molding process of a thermoplastic material capable of imparting a radially compressible elastic deformation power. Advantageously, the outer radius of the cylinder portion constituting the strut is substantially the same as the radius of a corrugation which engages, by contact at its bottom. According to a further embodiment of the invention, the cylinder portion constituting the strut has at its end opposite the heel an outer longitudinal fit, which facilitates its insertion between a batten and a concave duct, with or without the aid of a hammer. 4 35 1 i 5 10 15

Mod. 71-20,000 ex. - 90f08 20 25 30 63.063 Ref: 51548A EN 331

According to a variant embodiment, the diameter of the bore of the cylinder part constituting the strut comprises a crust preferably of cutting groove whose center merges with the axis of said cylinder. Such a cross-shaped reinforcing rib prevents, without interfering with roof ventilation, the penetration of small animals, such as rodents, under the roof tiles, which is a further advantage of this invention is to emphasize that the rib arms cross-shaped can be one vertical and the other horizontal if the element is intended for a roof which must withstand an overload, for example of snow. In contrast, for a roof without overloading, elements according to the invention can be used provided with a cross-shaped internal reinforcing rib of arms inclined about 45 ° vertically. Finally, the load-bearing and load-sharing member is placed at determined intervals so as to properly partition the load of the slats and tiles onto the sub-frame. The invention also relates to a flat roof roof realized thanks to such load bearing and load-sharing elements. The invention will be further illustrated without being in any way limited by the following description in view of the accompanying drawings in which: Figure 1 shows a partial section / profile view according to the slope of the roof constructed in accordance with the invention, Figure 2 is a cross-sectional / partial section view following line II-II of Figure 1 according to a direction perpendicular to the slope of the roof, Figure 3 is a schematic perspective view showing a support member and according to the invention, before and after their positioning, Figures 4 and 5 show, respectively, 35 1 5 10 15

Mod. 71-20,000 ex. The side and end elevation views of an element according to the invention. With reference to the figures, it will be seen that the roof firstly comprises a support structure. This support structure may for example be a concrete beam or composite material, or a wood frame. On this support structure 1, corrugated plates 2 are joined. These plates 2 are secured in a process known to the man skilled in the art, so as to construct a sub-frame of the impermeable roof. In order to allow the flow of water eventually infiltrated, the corrugations of the corrugated plates are substantially offset in the direction of the slope of the roof. The roof further comprises rails 5 which are placed substantially perpendicular to the slope of the roof. These slats may be for example in wood. They make it possible to ensure the positioning of the tiles on the sub-frame of the roof and above all allow to prevent the tiles from slipping on said sub-frame. The intervals between the slats are determined by the geometry of the tiles used. When flat tiles, which have one end at one end and at the opposite end rough edges, the disengagement 7 of a first tile 6 is placed upstream and abuts a first batten 5. On a second adjacent batten 9 and the part 10 which comprises the roughnesses of the first tile 6 rests on the upstream part of the second tile 11, which itself rests, on its turn on the second slat 9. As seen more precisely in Figure 2, between the slats and the sub-frame of the roof are placed the load-bearing and load-sharing elements 3. Each element 3 is constituted by a tubular strut placed in a concave sub- 6 35 1 5 10 15

Mod. 71-20,000 εκ. - 90/08 20 25 30 63.063Ref: 51548A EN 331

of the roof 2 in one-way contact with a slat 9 or 5 and on the other side with the bottom of said concave ripple 2a on a relatively important surface on either side of the axis XX 'thereof. The element 3 has a shape adapted to the profile of the sub-frame plates of the roof. In the present example, these are plates with curved corrugations, but the invention could, of course, be applied to plates which form niches of quadrangular, especially polygonal profile. According to an exemplary embodiment of the invention the roof sub-frame of corrugated plates is provided, the strut 3 is carried out in a hollow cylinder portion, so as not to oppose the flow of water in the corrugations, nor to the passage of roof ventilation air. The dimensions of the strut 3 are such as to allow their introduction into a concave corrugation 2a after collation of the slats 5 at determined intervals on the sub-frame of the corrugated plate roof 2. The slats 5 are fixed with screws or nails 4 only to the sub-frame of the roof 2, substantially at the level of the convex tops 2b, or by crossing it to come to rest on the support structure 1 which thereby immobilizes the slats 5 and the sub-frame of roof 2 with respect to this last. The outer diameter &quot; D &quot; of the cylinder portion constituting the strut 3 is at least equal to the distance &quot; d &quot; between the inner bottom of a concave undulation 2a and the lower face 5a of a batten 5 in front of said undulation, so that the strut 3 contacts by engagement said concave undulation 2a to form a symmetrically contacting zone distributed. Preferably, the diameter &quot; D &quot; is greater than the distance &quot; d &quot;, since the aim sought is to avoid that the weight of the slats 5, 9, etc ... and of the roof tiles 6, 11, etc ... forming the roof is directly transmitted to the fragile surface of the tops of the convex waves 2b of the corrugated plates 7 35 1 5 10 15

Mod. 71-20,000 ex. - 90/08 20 25 30 63.063 Ref: 51548A EN 331

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2, so as to transmit and distribute substantially all of this weight in the support structure 1 by means of the struts 3 supported on the major surfaces on the concave waves 2a, themselves resting on the support structure 1. Thus, any critical deformation of the ρΐε corrugated casings 2 due to the weight of slats and tiles is practically avoided thanks to the difference &quot; e &quot; between the diameter &quot; D &quot; of strut 3 and the distance &quot; d &quot; between the bottom of the concave corrugation 2a and the batten 5. Advantageously, the strut is constructed of synthetic material such as polyethylene in order to allow its understanding to a value equal to the difference &quot;, by radial elastic deformation in particularly for roofs without overload. However, for overloaded roofs, it may be necessary to reduce the deformability of the element so that it retains, without exceeding the stability limit, a high load which can reach 80 daN per element. The strut 3 comprises, at one of its ends, a fixing lug 12 which extends radially outwards from the cylinder and is able to form a shoulder with a batten 5, 9, in an introduction direction F directed towards the lower part of the inclination of roof. Thus, the struts 3 can be placed in tight engagement under the slats 5, 9. without any fastening means and completely independently of fixing said slats. According to the present embodiment the securing heel 12 of the strut 3 is a leg positioned. in protrusion on the cylinder portion at one of its ends 3a and whose lateral edges 12a and 12b are confused with two parallel tangents of said cylinder constituting the strut 3. The strut 3 comprises at its lower part 3b, opposite the heel of an outer longitudinal groove 13 parallel to the axis YY 'of anchor 3, suitable for: 8 35 1 5 10 15

Mod. 71-20,000 ex. - 90/08 20 25 30 63.063 Ref: 51548A EN 331 &quot; S / titrate with the bottom of a concave undulation 2a, on which the strut 3 lies a water drainage duct. This is to avoid, in the event of poor drainage due to, for example, condensation and joining in the corrugations, that accumulations of water behind the threshold 14 formed by the very thickness of the cylindrical wall of the strut 3. To facilitate the introduction of anchor 3 between the slats 5, 9, between the latter and the concave undercut undulations of the roof, the introduction part 3a opposite the heel 12 comprises a longitudinal bevel 15 which forms a beveling, able to be easily inserted between the slats 5, 9 and a concave undulation 2a with or without the aid of a hammer or pack. In the present example, the blank 15 is double and consists of two inclined planes 15a and 15b respectively directed towards a lower 3d upper 31d of the strut 3. The introduction can thus be done manually and possibly be terminated with some hammers apply on the opposite part of the strut 3 at the level of the heel 12 which thus constitutes a reinforcement of this part. In addition to the form conditions which must be met by element 3 in order to allow a good fit to the sub-frame of the roof used, it must have sufficient strength to withstand the weight of slats and roof tiles without any permanent deformation and any overload due to snow and wind. A suitable resistance can be imparted to the elements 3 by giving them a less imposing thickness but a complex shape. For this purpose, a variant embodiment (Figure 5) of the bore diameter 3e of the cylinder portion constituting the strut 3 comprises a cross-shaped cutting rib 16 whose center 0 lies on the axis YY 'of said cylinder . For a roof without overload, constructed for example in a geographical area or the risk of overloading 1 5 10 15

Mod. 71-20,000 ex. - 90/08 20 25 30 63.063 Ref: 51548A EN 331

The rib 16 is preferably &quot; a St. Andrew's Cross &quot;, whose arms 16a are inclined substantially 45Â vertically, so that the arms 16a therein do not run the risk of constituting an obstacle to flow of water. Moreover, this gives the said strut 3 a reinforcement which does not oppose the radial deformation of said strut 3 in compression under the weight of the slats 5, 9 and the tiles 6, 11 if not when it goes beyond a deformation useful for their use . On the contrary, for overloaded roofs, mainly of snow, or on which each element must withstand a high load, the crosswise rib is carried on a vertical and a horizontal arm, as shown in mixed strokes 16b in Figures 4 and 5, for reasons of resistance. This embodiment reduces the deformability of the element, but is necessary to withstand, without exceeding the yield strength, at a load of about 80 daN per element. It should be noted that, in this case, the vertical arm 16b is of a thickness (for example of about Smm) preferably higher than that of the horizontal arm 16b (for example of about d mm). On the other hand, and as also shown in mixed features in Figures 4 and 5, the securing heel 12 may be partially excavated at 17a and 17b, on its face facing the opposite side of the tubular part, and between a marginal groove 18 and a vertical and central rib 19 having substantially the same thickness as the vertical arm 16b of the cross-shaped inner rib. In both cases, the cross-shaped internal rib prevents penetration of any of the animals under the tiles without hampering ventilation. Finally, advantageously, the load-bearing and load-sharing member constituted by the strut 3 is obtained as a monoblock by injection molding. It is, of course, necessary to choose in an appropriate manner the number of load bearing and load-securing elements as well as their position in order to properly partition the weight of the roof over the sub-frame. Conside in 35

Claims (1)

it is generally assumed that the constraint / pressure exerted by the weight of the roof on the sub-frame of the roof should not exceed 0.2 MPa. It will be appreciated that the invention makes it possible to use, for constructing flat roof tiles, materials which are specially designed for channel roofing tiles by achieving the properties which these sub-frames exhibit in the framework of roofing channel roofs. 10 63.063 Ref: 51548A EN 331 The reference representations inserted after the technical characteristics announced in the claims have the sole purpose of facilitating the understanding of the latter and may in no case have the effect of limiting the particular mode of embodiment of the invention. invention which is to be described. 16 Mod. 71-20,000 ex. - 908 20 25 30 -REIVINDICATIONS- 1-. A load-bearing and load-sharing element for flat-roof tiles, consisting of a south-facing roof (2) of corrugated plates whose corrugations are arranged substantially in the direction of the slope of the roof, and on which are fixed (5, 9), substantially perpendicular to the direction of said roof slope, and able to receive the tiles (6, 11), after the interposition of support elements and partitioning of the carga (3) between the (5,9) and the sub-frame of the roof (2) at determined intervals, characterized in that it is contiguous with a tubular strut placed in a concave corrugation (2a) of the sub-frame of the roof (2) in on one side with a batten (5, 9) and on the other side with the bottom of said concave ripple (2a). 2- . An element according to claim 1, characterized in that the tubular strut (3) which is in the form of an elastomer, - 90/08 20 25 30 63.063 Ref: 51548A EN 331 27 FEV. 1991 is a cylinder portion of which one of its ends (3a) comprises a fixing lug (12) extending more or less radially towards the outside of said cylinder, and apt to form a shoulder with the lath ( 5,9) in the direction (F) of introduction directed towards the lower part of the slope of the roof. 3§. Element according to one of Claims 1 and 2, characterized in that the heel anchoring heel (12) is a leg projected onto a cylinder portion, and the lateral edges (12a, 12b) are confused with two parallel tangents of said cylinder portion. H-. The element according to the preceding claims, characterized in that at its lower part (3b) opposite the fixing plate (12), the strut (3) comprises an outer longitudinal groove (13) suitable for forming with the bottom of a concave undulation (2a) a water drain pipe. 5§. Element according to one of Claims 1 to 4, characterized in that the outer diameter (D) of the strut (3) is at least equal to the diameter (d) between the bottom of a concave undulation ( 2a) and the lower face (5a) of a batten (5) in front of said undulation (2a). 6â. An element according to claim 5, characterized in that the diameter (D) of the strut (3) is greater than the distance (d) between the bottom of a concave undulation (2a) and the undersurface (5a ') of a batten in front of said corrugation (2a). Ί-. Element according to one of the preceding claims, characterized in that the strut (3) is obtained in the form of a monoblock by injection molding a thermoplastic material capable of imparting a radially compressible elastic deformation power . 8§. An element according to one of the preceding claims, characterized in that the outer radius of the cylinder portion constituting the strut (3) \ 1 5 10 Mod. 71-20,000 ex. - 90/08 (2a) which is hinged by contact in its lower part (3b). Element according to one of the preceding claims, characterized in that the cylinder portion constituting the strut (3) comprises, at its opposing part (30) to the heel (12), an external longidutinal ring (15a, 15b) (5a) and a concave undulation (2a) with or without the aid of a hammer. The element according to one of the preceding claims, characterized in that the diameter of the hole (30) of the cylinder portion constituting the strut (3) comprises a rib (16), preferably a cross-shaped cutout whose center (0) lies on the axis (YY1) of said cylinder. according to one of the preceding claims, characterized in that it is arranged according to predetermined intervals so as to suitably distribute the load of the slats and tiles on the sub-frame of the roof. by a sub-frame of the roof (2) of corrugated plates on which slats (5,9) are received which receive the tiles (6, 11) being interposed between the slats and the sub-frame of the roof supporting and load-sharing elements (3) constituted by struts as claimed in the preceding claims. Lisbon, Portugal. 30 By OMNIUM FRANÇAIS INDUSTRIAL ET COMMERCIAL (O.F.I.C.) 0 OFIQ AGENT: VASCO JMDOMI mm ágtnw Oficiei et Property Industrie --------------- - ----- --- @ ifiérle-Are · de Çeegely-p1 | 1, 1IW MWfra ......... - 1 λ - 35