FR2720813A1 - Structure support. - Google Patents

Abstract

Structural support such as for example an antenna system. According to the invention, the support comprises a base (14) consisting of a plurality of heavy slabs (15), assembled side by side and possibly superimposed and a mounting means such as a mast (16) adapted to support the structure. .

Description

STRUCTURE SUPPORT

  The invention relates to a structural support such as for example an antenna system intended to be installed in the open air and in front, therefore, to be able to withstand wind and bad weather. The invention proposes a new type of support making it possible to erect a mast, pylon or any other mounting means adapted to receive said structure in any chosen location, even when it is not very accessible, such as for example a building terrace, the installation being performed without

  masonry or resumption of waterproofing on the site of implantation.

  The development of radiotelephone and satellite telecommunications networks requires the installation of antennas in urban areas, typically on the terraces of buildings. These installations are often expensive and difficult to carry out because the chosen location is sometimes difficult to access. It is therefore difficult to bring there the materials and elements necessary for the realization of the infrastructure intended to keep the antenna in place in a stable position. Sometimes expensive lifting means have to be used. Another difficulty results from the fact that, depending on the dimensions and the geometry of the chosen site (the terrace) and those of the structure itself (the antenna), it is practically impossible to define the characteristics of the support. The latter is therefore generally different in each case. The same problems can be encountered when building illuminated signs or other dissemination systems

information to the public.

  The invention provides a solution to all these problems.

  One of the objectives of the invention is to provide a system for erecting a mast, pylon or any other mounting means, without masonry work or

  resumption of waterproofing on site, in complete safety.

  Another object of the invention is to provide a system which is easily transportable to the site, without requiring special lifting means such as cranes or

external freight elevators.

  Another objective of the invention is to propose a system whose shape, dimensions and mass can be adapted at will depending on the site,

of establishment of the structure.

  More specifically, the invention relates to a structural support, in particular installed outdoors, typically on a building terrace, such as for example an antenna system, characterized in that it comprises a base made up of a plurality of slabs heavy assembled side by side, possibly superimposed and a mounting means such as a mast or the like, fixed to at least one of the

  slabs, said mounting means being able to carry said structure.

  According to a currently preferred embodiment, each slab consists of a rigid frame, for example made of metal, of constant height and a heavy material molded in this frame. In most cases, this material is concrete poured into the frame. The invention will be better understood and other characteristics and advantages thereof

  will appear more clearly in the light of the description which follows, given

  only by way of example made with reference to the accompanying drawings in which - Figure 1 is a perspective view of a radiotelephone antenna mounted on a support according to the invention; - Figure 2 is a detail view on a larger scale of a support according to the invention; - Figure 3 is an exploded perspective detail view, illustrating the assembly of several tiles constituting a support according to the invention; and

  - Figure 4 is a top view of the frame of a slab, before pouring the concrete.

  In the drawings, there is shown an urban radiotelephone antenna 11, installed on the terrace 12 of a building by means of a support 13 simply placed on said terrace. This support 13 essentially consists of a base 14 on which is erected a means for mounting the antenna 11, in this case here a mast 16. The antenna 11 is fixed to this mast. The base 14 consists of several heavy slabs 15, assembled side by side in at least one layer. It is possibly composed of several superimposed layers. The tiles here have a hexagonal outline. Slabs having another convex polygonal contour could be used, provided that said slabs can be assembled side by side with other similar slabs. In the example of Figure 1, there is shown a base composed of three layers of overlapping slabs while in the example of Figure 2, the base has only one layer of slabs. The mast 16 has a base 18 fixed to at least one slab 15 by bolts 20a, and nuts 20b, the rods of the bolts passing through said slabs. the support 13 also includes struts 22. Each strand extends between said mounting means (the mast 16) and another slab distant from that which supports the mast. According to the example, each container is connected to the corresponding slab by means of a base 24 fixed thereto. Each base 24 is similar to the base 18 and fixed in the same way by bolts and nuts. The struts could be replaced by guy wires or

similar.

  In all cases, the entire base is simply placed on the terrace 12 with the interposition of a sole 26 of resilient synthetic material which avoids deteriorating the waterproofing of the terrace. It should be noted that the base 14 can have any desired configuration. It is defined in each case according to the space available, the dimensions of the terrace, the dimensions and the wind resistance of the antenna, etc. It is according to these parameters that the surface and the shape of the base 14 on the one hand and the number of layers of tiles constituting it. The sole 26 is cut accordingly. Extensions (slabs a) are always possible if deemed necessary, even after commissioning

of the antenna.

  Each slab consists of a rigid frame, preferably metallic, of constant height. This frame here has a hexagonal outline and a heavy material is molded in said frame. Preferably, said heavy material is concrete 28 poured into the frame, which thus forms part of the formwork. The sides of the frame 27 are pierced with holes 30, in particular for the passage of the bolts 32a which, assembled with nuts 32b, performing the lateral assembly of the slabs of the same layer (FIG. 3). These holes are made in the vicinity of the corners of the frame 27. They open internally into reserves 34 where the bolt heads and nuts are housed. When the base 14 comprises several layers of superimposed slabs, these are assembled together by vertical fishplates 36 mounted and bolted (using the same holes 30) between the frames 27 of certain external slabs of said layers. The height of the fishplates is preferably a function of the number of layers. The slabs are themselves pierced with holes 37 passing through the concrete, for the possible passage of the bolts ensuring the fixing of the bases 18 or 24. Rectangular recovery plates 38 can be placed under or between the slabs carrying such bases. In this case, each slab can advantageously include a rectangular imprint in the

  concrete, to accommodate a plate 38.

  Figure 4 shows the structure of the frame 27 of a slab, just before pouring the concrete. We see that this frame has inner sealing lugs 39, while a mesh 40 or a similar element of synthetic fibers is placed on the sealing lugs. In this way, after pouring the concrete, said mesh extends in the thickness of the mass of concrete and contributes, with the sealing lugs 39 to the joining of the concrete and the frame. Before pouring the concrete, there are blocks of friable material 42 (for example expanded polystyrene) at the interior corners of the frame 27, to form the reserves 34. In the same spirit, there are small columns 43 inside the frame to form the holes 37

passage of the bolts 20a.

  The modular base, composed of small juxtaposed and possibly superimposed concrete slabs, connected to each other by bolts, forms a rigid structure which ensures the stability of the mast by taking up the efforts while standardizing the load on the terrace. The system is delivered in separate parts and does not require any particular lifting means since all the elements

  can be brought to the terrace by the building's elevator or staircase.

  The metal parts are preferably made of galvanized steel. The system can evolve as needed. For example, if you want to add additional antennas, simply extend and / or raise the base by adding tiles. The system is also removable and its elements are reusable.

Claims (10)

  1. - Structural support, in particular installed outdoors, typically on a building terrace, such as for example an antenna system (11), characterized in that it comprises a base (14) made up of a plurality heavy slabs (15), assembled side by side, optionally superimposed and mounting means (16) such as a mast or the like, fixed to at least one of the slabs, said mounting means   being able to carry said structure.   2. - structural support according to claim 1, characterized in that it comprises bracons (22) or the like, each of them extending between said mounting means (16) and a slab (15), for example by means of a fixed base (24) to this one.   3. - structural support according to one of the preceding claims, characterized in   that said tiles (15) have a hexagonal outline.   4. - structural support according to one of the preceding claims, characterized in   that each slab (15) consists of a rigid frame, of constant height and   in that a heavy material is molded therein.   5. - structural support according to claim 4, characterized in that said   heavy material is concrete (28).   6. - structural support according to claim 4 or 5, characterized in that the reserves (34) are formed at selected locations of said slab, in that holes are made in said frame and open into these reserves,   for the assembly by bolts of such adjacent slabs.   7. - structural support according to one of claims 4 to 6, characterized in   that several superimposed layers of slabs (15) are joined together by vertical fishplates (36), for example mounted between the frames of certain   exterior slabs of said layers.   8. - structural support according to one of claims 4 to 7, characterized in   that each frame (27) has inner sealing lugs (39).   9. - structural support according to claim 8, characterized in that a mesh or similar element of synthetic fibers extends in the thickness of the mass of said heavy material.   10. - Structure support according to one of the preceding claims, characterized   in that the whole of said base is placed on a sole (26) of resilient material.