FR2853341A1 - Roof device, has upper and lower sheets of bars and flexible cover that is divided into strips that are folded in position between bars of three dimensional structure - Google Patents

Abstract

The device has upper and lower sheet of bars (110) and a flexible cover (200). The flexible cover is divided into strips (210) that are folded in position between the bars of a three dimensional structure (100). A V shape profile has upper ends connected to the upper sheet and lower ends connected to the lower sheet. The strips are adapted for water evacuation.

Description

ROOF DEVICE WITH FLEXIBLE COVER

  FIELD OF APPLICATION OF THE INVENTION The present invention relates to the field of roofs comprising a rigid three-dimensional support structure and to the adaptations making it possible to optimally achieve their covering with a flexible membrane.

DESCRIPTION OF THE PRIOR ART

  In the prior art, there are light, rigid and easy-to-assemble roofing devices adopting a three-dimensional type load-bearing framework.

  A three-dimensional structure is conventionally composed of a regular mesh of square meshes in lower and upper layers formed by bars, the upper mesh being offset by half a mesh with respect to the lower mesh. Thus, in planar projection and according to the conventional embodiment, each node of the mesh of the lower ply is found in the middle of a mesh of the upper ply. This lower node is further connected by diagonal bars to the four nodes of the upper mesh or vice versa.

  The nodes between the bars of the same ply or between the diagonal bars connecting the two plies are conventionally in the form of solid tapped spheres onto which the bars are screwed. Other link systems are also possible.

  The height between the lower ply and the upper ply is of the order of half the width of a mesh which corresponds to the distance between two nodes on the same ply. Also, in side view, the diagonal bars have an angle of substantially forty-five degrees relative to the lower and upper ply.

  Said bars are conventionally produced from 35 round tubes of steel or aluminum alloy.

  The three-dimensional metal structure roofs used today are conventionally associated with a traditional steel tank cover or more rarely with a flexible cover of textile type of specific shape.

  In the latter flexible cover solution, the Applicant has found that the current solutions have certain drawbacks.

  Indeed, the establishment of flexible covers of the prior art requires the presence on the cover 10 of a rod as well as the preformation of the bars constituting the structure to accommodate said rod and thus achieve the fixing.

  The installation of the flexible cover having to adapt to the presence of a lower and upper mesh of the support structure, the flexible cover is conventionally divided into cover modules, all of the same dimensions to ensure the cover of each mesh separately. . Thus, for example, a mesh of the lower ply can be covered by a cover module, a link with the upper ply making it possible to energize the flexible cover and make it adopt a slope.

  The hitherto necessary subdivision of the flexible cover has the drawback of multiplying the duration of its installation phase as well as of presenting drawbacks in terms of sealing and evacuation of rainwater.

  In fact, the subdivision into modules of the flexible cover has the drawback of multiplying the joints and the 30 water retention zones. A more aggravating factor lies in the geometry adopted by the roofing devices of the prior art which has the disadvantage of directing rainwater towards the fixing joints between the roof and the three-dimensional structure acting as a gutter.

DESCRIPTION OF THE INVENTION

  On the basis of this fact, the applicant has carried out research on an association between a three-dimensional structure and a flexible cover capable of solving the drawbacks of the prior art.

  This research led to the design and the realization of a roof associating a three-dimensional structure accommodating a flexible cover according to a particularly advantageous geometry.

  According to the invention, the type 10 roofing device of that constituted by a three-dimensional structure comprising upper and lower plies of bars and by a flexible cover is remarkable in that the flexible cover is divided into strips adopting when folded in position between the bars of the structure, a V-shaped profile whose ends are linked to the bars forming the three-dimensional structure, the upper ends being linked to the bars of the upper ply, the lower end being linked to the lower ply.

  The use of a covering strip over a total length of the supporting structure reduces the number of operations necessary for its installation. By avoiding the presence of a cover module for each mesh, the use of a strip covering the entire space present between two meshes of parallel bars, whether in length or in width, avoids the multiplication of contiguous surfaces and fixing.

  The V-shaped geometry adopted by the strip between the bars is particularly advantageous in that it directs rainwater towards the tip of the V, that is to say a part of the strip which does not have any connection or joint, thus guaranteeing the waterproofing of the cover. Still to optimize the fixing of this strip but also the evacuation of water, the applicant has carried out research to design appropriate means, research which has resulted in the definition of implementation characteristics which will be described below.

  In fact, the fundamental concepts of the invention having just been set out above in their most basic form, other details and characteristics will emerge more clearly on reading the description which follows and with reference to the appended drawings, giving by way of nonlimiting example, an embodiment of a roofing device according to the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

  FIG. 1 is a schematic drawing in top view of the assembly of an embodiment of a roofing device according to the invention, FIG. 2 is a drawing in perspective view from above of the device illustrated by Figure 1 installed on a building, Figure 3 is a schematic drawing in partial side view in section along the sectional plane BB illustrated in Figure 1, Figure 4 is a schematic drawing in partial side view in section along the plan of cut AA illustrated in figure 1.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS

  As illustrated in the drawing in FIG. 2, the roofing device referenced T is of the type of that associating a rigid support structure of the three-dimensional structure type 100 with a flexible cover 200.

  According to the invention and according to the illustrated embodiment, FIG. 2 represents a three-dimensional structure 100 associated with flexible bands 210 of pleated textile type stretched and arranged in rows in the direction of the smallest span, in space void bounded by the two layers of the three-dimensional structure over a mesh width. Each strip V 210 in the form of a V is connected to the structure both in upper and lower plies, this over the entire width of the structure.

  Thus, the flexible cover 200 is divided into strips 210 adopting, once folded in position between the bars of the structure, a V-shaped profile whose ends are linked to the bars or beams 110 forming the three-dimensional structure, the upper ends being linked to the bars of the upper layer, the lower end being linked to the lower layer. According to the invention, the strips 210 adopt a length at least 10 greater than the width of a mesh. According to the preferred embodiment illustrated, the length of the strips 210 corresponds to one of the lengths of the support structure 100, that is to say that the strips 210 have the length, the width of the support structure 100. The width of the strip as for it is also greater than a mesh width so that the strip can form a V in the inter-mesh and inter-web space.

  As illustrated in more detail in the drawing in FIG. 3, the V formed by each strip 210 is inscribed between the two upper and lower plies formed by the structure 100. More specifically, the V formed by the strip 210 comes register in the V formed by the connecting bars 111 present between the nodes 300 forming the structure 100.

  As illustrated, the point 211 of the V comes in the vertical plane formed by a row formed by the horizontal bars placed end to end of the lower ply while the upper ends of the V come to bond with the parallel rows formed by the horizontal bars 30 put end to end of the upper ply and located on either side of the above-mentioned vertical plane.

  According to an embodiment not illustrated, the fold of the band 210 is obtained for each inter-mesh space by means of three drawing stiffeners in cable or in tube or in special profile, two in the upper part at each upper end of the V, a in the lower part and stretching the V f formed by each band in each inter-mesh and inter-web space. These stiffeners also have the function of fixing the bands 210 to the structure 100.

  As illustrated in the drawings in detail in section view, these stiffeners are held at several points by a tension system fixed to the nodes of the structure.

  These tensioners have the utility of giving the pleated shape to each strip of fabric and of stretching it on the one hand and of imposing a slope on the lower stiffener of the textile strip pleated in its longitudinal direction for the purpose of discharging water. storm towards the roof ends by adjusting the length and the tension of said tensioners on the other hand.

  In fact, the applicant has advantageously imagined varying the slope formed by the longitudinal edge of the point of the V formed, by a progressive tension of the bands.

  According to the invention, the roofing device T comprises tensioning means 400, a first end 410 of which is linked to the lower ply and the second end of which is linked to said strip 210 in order to produce the fold necessary for the V-profile. Thus, said tensioning means are adapted so as to produce a variation in the height of the point of the V formed by the bands and thus control the evacuation flows of rainwater.

  According to a preferred embodiment illustrated by FIG. 1, the tensioning of the strips 210 creates a high point at the level of the plane of symmetry so that the rainwater is discharged towards the two sides of the roof T according to the directions materialized by arrows F According to one embodiment, the connections to the lower nodes or to the lower ply are widely spaced by stretching the lower edge of the strip, that is to say that formed by the point of the V by a cable rope.

  A characteristic participating in this orientation of rainwater lies in the fact that said strip 210 is precut so that, once tensioned, it adopts a desired slope for the discharge of water. Thus, not only the slope can be defined by an adequate tensioning of the strip but it can also be the result of a particular cutting of the strip which, once pleated and tensioned, adopts at its point in V the desired slope.

  Thus, the invention also resides in the precut before installation of the strips according to a predefined pattern.

  As illustrated in the drawing of FIG. 4, to perfect the evacuation of rainwater from the roofing device T of the invention, each side of the roof towards which the rainwater is directed is equipped with a gutter 500 formed by a flexible strip adopting a V profile. Although the subdivision of the cover 200 into 20 strips 210 allows an improvement of the installation and the sealing at the level of the rainwater evacuation path, the presence of the transverse bars at the strip 210 prevents it from covering the row of parallel bars with the upper ply to which it is substantially parallel. Indeed, the tubes or bars of the upper ply, parallel to the strips, are cut by tubes which are orthogonal to them. This square mesh configuration conventionally adopted by three-dimensional structures, therefore prevents a continuous connection between the taut and parallel pleated textile bands. Indeed, all the mesh lengths, the connection between the adjacent bands is interrupted in the upper part by the passage of bars of the structure. This sealing problem at the upper end of the V formed by the strip is solved by a characteristic of the invention which is remarkable in that the rows of bars of the upper ply at the level of which converge two by two. the upper ends of the Vs formed by the bands disposed in the meshes on either side of this row of bars are fitted with a cover 600 ensuring coverage above said zones of convergence between the Vs. non-limiting embodiment, a solution to this problem consists in placing at the level of these 10 interruptions a metal cover 600, textile or any other material attached to the upper nodes 300 which connect the tubes. Its hat shape follows the curvature of the canvas and seals in the event of rain, thus serving as a cover.

  Furthermore, the connection between the pleated textile strips is made, according to a non-limiting embodiment, by small added textile strips, over the entire length of said pleated cover strips. These additional bands forming an inverted cap 20 may have their ends fixed to the upper ends of the Vs of two adjacent cover bands joining from one mesh to another.

  Of course, various arrangements and modifications can be made to the embodiment presented without departing from the scope of the invention. Thus, the nature of the fabric or that of the stiffeners and structural bars cannot be considered as limiting.

  Similarly, although the three-dimensional structure is conventionally used to form flat roofs, its shape should not be considered as limiting either, the essence of the invention remaining the use of V-shaped textile bands, structurally independent or not, of great length and located in the thickness of a three-dimensional metallic structure. It is understood that the roofing device, which has just been described and shown above, was for the purpose of disclosure rather than limitation. Of course, various arrangements, modifications and improvements could be made to the example above, without departing from the scope of the invention

  as defined in the claims.

  Thus, for example, the lower attachments of the flexible strip could be widely spaced apart by means of a cable stretched over the lower edge, a cable having a rounded shape conducive to the evacuation of water and to its structural tension according to the classic funicular principle. . -

Claims (8)

  1. Roofing device (T) of the type constituted by a three-dimensional structure (100) comprising upper and lower plies of bars 5 (100) and by a flexible cover (200), CHARACTERIZED BY THE FACT THAT the flexible cover ( 200) is divided into strips (210) adopting, when folded in position between the bars (110) of the structure (100), a V-profile whose ends are linked to the bars (110) forming the three-dimensional structure (100) , the upper ends being linked to the upper ply, the lower end (211) being linked to the lower ply.   2. Device (T) according to claim 1, CHARACTERIZED BY THE FACT THAT it comprises tensioning means (400) of which a first end (410) is linked to the lower ply and the second end (420) is linked to said strip (210) in order to produce the fold necessary for the V-shaped profile. 3. Device (T) according to claim 1, 20 CHARACTERIZED BY THE FACT THAT the fold of the band (210) is obtained for each inter-mesh space by means of three stiffeners, two in the upper part at each upper end of the V, one in the lower part and stretching the V formed by each strip (210) in each inter-mesh and inter-web space.   4. Device (T) according to claim 2, CHARACTERIZED BY THE FACT THAT said tensioning means (400) are adapted so as to produce a variation in the height of the point of the V formed by the bands (210) and thus control rainwater drainage flows.   5. Device (T) according to claim 1, CHARACTERIZED BY THE FACT THAT said strip (210) is precut so that once energized, it adopts a slope for the discharge of water.   6. Device (T) according to claim 1, CHARACTERIZED BY THE FACT THAT each side of the roof - it towards which the rainwater is directed, is equipped with a gutter (500) formed by a flexible strip adopting a V profile . 7. Device (T) according to claim 1, 5 CHARACTERIZED BY THE FACT THAT the rows of bars (110) of the upper ply at which converge two by two the upper ends of the V formed by the bands (210) are equipped a cover (600) providing coverage above said areas of convergence between the V. 8. Device (T) according to claim 1, CHARACTERIZED BY THE FACT THAT the strips (210) have the length, the width of the supporting structure (100).