FR2586737A3 - Tubular construction element - Google Patents

Abstract

Composite tubular construction element, characterised by at least one metal base tube 1, 6, 10 closed over its periphery and shaped longitudinally and a metal perforated support tube 3, 7, 9, 11 surrounding this base tube or surrounded by it or a plurality of such support tubes 3, this or these support tube(s) being in contact over their periphery with the closest parts of the profile of the base tube and being welded, at these spots, at least in points, to the base tube.

Description

 The present invention relates to a composite tubular construction element.

 Multilayer pipes for pipes are known, the layers of which are made of different materials. These known composite tubes are manufactured in the factory by the manufacturer, require a large number of costly operations and are of cottering structure, and above all, their shape, in particular the shape of their section, is already definitively fixed during manufacture, therefore at the factory, so that they cannot be adapted to the stains and external forms of the most diverse works. It is therefore necessary, for different tasks and different conditions set by the user or by the site, to manufacture and supply the most diverse composite tubes.

 The object of the invention is to provide a composite tubular construction element formed of a small number of components and of simple structure which makes it possible to prepare in the factory or to realize on the site very different cross-section shapes and to adapt these shapes. on site, by simple means, for the various tasks and intended use. The construction and layout on site must be flexible and simple so that the tubular construction element can be used for the most diverse purposes and be easily adapted to the most diverse uses.

 The invention achieves this object mainly with a composite tubular construction element which is characterized by at least one metal base tube closed on its periphery and longitudinally profiled and a perforated metal support tube surrounding this base tube or surrounded by it or several such support tubes, this support tube or these support tubes being in contact on its or their periphery with the parts of the profile of the base tube nearest and being, in these places, welded (s) at least punctually to the base tube . This basic structure provides very important advantages: the basic tube gives an element whose shape, in particular the shape of the section, can be easily adapted to the forms of use. Thus, this base tube can be deformed from its basic form to give it any cross-sectional shape. The perforated support tube or the perforated support tubes can follow these deformations and, after welding to the base tube, stabilize the form end of the section. A suitable filling material can be introduced into the voids through the perforations of the support tube or of the support tubes, this can be done either in the factory or on the site. The tubular construction element constitutes in its basic form an extremely simple construction body made up of very simple elements. This basic body can be manufactured in the factory and can be used on site in the desired shape in a simple manner and with great adaptability.

The tubular construction element of the invention can be used as a pipe for conducting the most diverse fluids, for example waste water, air, gas, or as a hollow beam or post in buildings and at the same time as a pipe. However, it can also be used in its form as an enclosure for above-ground or buried piping systems. The profiling of the base tube and the support tube (s) joined to it give the tubular construction element a high static resistance, in particular to compression and buckling. The tubular construction element can thus be used for the most diverse static uses and, at the same time or separately, for the realization of the most diverse conduits. The characterized tubular construction element can, in its basic form, be provided with the most diverse coatings or fillings and can also, with the desired shape, be laid in building masses, in particular concrete masses, and have its shape fixed. Thus, depending on the resistance to pressure at the top or a desired working pressure, the building element can be embedded in suitable concrete poured on site. When thermal insulation is necessary, the appropriate insulators can be applied or incorporated in the factory or on site or else be provided on site in the surrounding masses.

 Depending on the intended use or the resistance, in particular static, desired, support tubes can be provided outside and inside or only outside or inside. A series of base tubes and support tubes can also be provided.

 In addition to the invention, the base tube can be a longitudinally corrugated tube or a tube profiled longitudinally to a regular or irregular polygonal shape. It is possible, by radial deformation, to transform in any way the cross-section of the base body of the tubular construction element thus obtained. The base tube is conveniently made of corrugated or profiled sheet and bonded by welding at least on its longitudinal joint.

This connection can be made end to end or by overlap.

The support tube or support tubes are, at the points where they are in contact with the part of the profile of the nearest base tube, welded at least punctually, that is to say either attached or spot welded, to the tube basic. Thus, when the base tube is a corrugated tube, this assembly is done by fixing to the vertices of the waves thereof. In the case of polygonal tubes made of a zigzag profile or the like, a support tube will rest on the straight parts of the polygon of the base tube, so that for example the corresponding part of the base tube is tangent to the support tube, and will be welded to the base tube on the contact lines.

 A structure of element of tubular construction is obtained which is particularly good both for static uses and for conducting fluids if, according to another embodiment of the invention, the voids between the base tube and the support tube or tubes are filled with a filling material, the base tube, or the support tube (s) on their face opposite to the base tube, which can be provided with a coating, in particular the filling material. Other coatings can be applied for insulation purposes. One can also use an inner tube placed in the building element as lost formwork to give the building element, for example for the transport of certain fluids, a particularly suitable interior wall.

 The filling material and / or the coating material may be a concrete, in particular a cement-colloid concrete. These fillers and coatings can be influenced by additions; in particular, it is possible to use a high-density cement-bonded concrete on which it can then additionally influence by organic additions for example so as to make it water-repellent.

 However, it is also possible to use as filling and / or covering materials a polymer concrete or a polymeric foam material. All these achievements allow the most diverse cross-sectional shapes of the final building element. The desired cross-sectional shape can be given to the basic body presented at the start and to the other embodiments with filling and coating materials both in the factory and on the site and can be maintained by the support tube or the support tubes and by the materials used, including by on-site casting operations. The filling material can be injected through the holes of the perforated support tubes; however, filling can also be done on the front side. Organic intermediate layers can be applied as chemical protection against corrosion.

It can also be made a direct coating of metal tubes, in particular by swirling concretion or with synthetic resins, for example based on epoxy-tar. Concrete or other reinforced materials, in particular reinforced by fibers, can also be used as filling materials and in particular for coating.

 Other characteristics, advantages and details of the invention appear from the claims and from the following description of several exemplary embodiments illustrated by the drawing. To simplify the representation, in the drawing are shown only sections, of the tubular construction element. The tubular construction elements thus represented extend with the section shown over the desired length, for example fixed by storey heights.

On the drawing
Figure 1 is a sectional view of an embodiment of the tubular building element of the invention, with a corrugated sheet base tube and perforated support tubes applied one inside and the other to the exterior, in a basic shape with a circular crown-shaped section, and
Figures 2 to 5 are half-sections of other embodiments of the tubular construction element of the invention with different section shapes.

 The tubular construction element shown in FIG. 1 first presents a metal base tube 1 which is formed from a corrugated sheet longitudinally transformed into a corrugated tube with a circular periphery. In 2, the longitudinal joint is at least fixed by welding, for example, in the case of the overlap shown, by spot welding. The longitudinally corrugated tube which forms the base tube 1 is, in the embodiment of Figure 1, joined externally to a support tube 3 and internally to another support tube 3, these tubes being sheet metal tubes with cross section circular crown shape. These support tubes 3 are provided with perforations 4 over their entire surface. This base body formed by the base tube 1 and the support tubes 3 can be rigidly assembled in the form of a circular crown represented by welding the support tubes 3 to the tops of the waves. of the base tube 1, the welding being expediently done by point bonding, in particular by spot welding.

It is however possible, before this fixing of the support tubes to the base tube, to give this basic body a practically any other shape of section by application of radial pressure and then to fix this shape of section created by welding the support tubes 3 to the base tube 1. It should be noted that the base body may consist of a single support tube 3 and of the corrugated base tube 1. In the case of a tube intended to conduct a fluid, the base tube 1, by its closed surface, prevents diffusion.

 The basic body described above can, in the factory, on site or in other decentralized workshops, be completed as shown in Figure 1 by filling a void filling material between the base tube 1 and the support tubes 3. These voids and the filling material are designated in FIG. 1 by 5. The filling material can also be added after the fact to stabilize the section shape produced previously. As indicated in the introduction, the most diverse coatings can be applied to the tubular construction body shown in FIG. 1. The filling material 5 is conveniently introduced through the perforations 4 of the support tubes 3, but can also be poured at the end. In particular in the case of coating after the fact, the filling material and the coating material are intimately toothed in the general body through the perforations 4.

 Figure 2 shows another form of section. The inner base tube 6 here has a circular Cwnfr-shaped section while the perforated support tube 7 which surrounds this base tube 1 has a rounded quadrangular or square section. The voids are here also filled with a filling material 8. Such a tubular construction element is suitable both as a post and at the same time as a pipe pipe inside buildings, and also as a pipe for laying above from the ground or underground.

 FIG. 3 shows a structure similar in terms of its basic shape to the construction body of FIG. 2.

Here, however, the base tube 6 of circular crown-shaped section closed on its periphery is surrounded by a support tube 9 very slightly deformed longitudinally.

 The tubular construction element of FIG. 4 has an outer base tube 10 with a closed surface, the cross section of which is polygonal. This base tube 10 is also made of a pre-profiled sheet and appropriately attached to its longitudinal joint, either end to end or with overlap. A perforated support tube 11 is placed in this base tube 10 so as to be in linear contact, along the length of the building element, with the faces of this tube 10 to which it is tangent. At these locations, the base tube 10 is suitably welded, at least punctually, to the support tube 11. It is possible, by deformation, to pass the section of this base body also of the shape shown in FIG. 4 to other forms. In FIG. 4, moreover, the voids 12 are again filled with a filling material. In addition, an additional layer of covering 13 made of this filling material or of another coating material is applied to the interior. This application can be done both in the factory and on site.

 Figure 5 shows an embodiment similar to that of Figure 4 in which, simply, the base tube 10a has in addition a longitudinal corrugation.

 The filling and coating materials may consist of the materials mentioned in detail at the beginning. The base tubes and support tubes are made of metal, conveniently made of sheet steel. The sheets used can be protected against corrosion. It is also possible, as clearly shown in the drawing, to join several layers of base tubes, support tubes, filling materials and coating materials to form a composite tube, and also to apply the most diverse exterior and interior coatings; in particular, one can put inside an inner tube forming lost formwork.

 A tubular construction element is thus created of which only the most important elements must be manufactured in the factory in a centralized manner; the additional operations of shaping the section, interior and exterior coating and installation can be done on site or in decentralized workshops according to operational requirements.

 The tubular construction element of the invention can not only be used as a component, in particular as a hollow beam or post in buildings, but also be provided and installed as a complete wall of a room to be made in a building. Thus, for example, the embodiment of FIG. 1 could surround a fairly large room inside a building, so that the tubular construction element of the invention makes it possible to produce a complete cell. It then constitutes prefabricated cells or similar elements.

 In the case of the embodiments of Figures 2 and 3, the outer tube 7 or 9 may be the closed base tube and the inner tube 6 be the perforated support tube.

Claims (11)

1. Composite tubular construction element, characterized by at least one metal base tube (1, 6, 10) closed on its periphery and longitudinally profiled and a perforated metal support tube (3, 7, 9, 11) surrounding this base tube or surrounded by it or several such support tubes (3), this or these support tubes being in contact on their periphery with the parts of the profile of the base tube which are closest and being, at these locations, welded at least punctually to the base tube. 2. Construction element according to claim 1, characterized in that the base tube (1, 10a) is a longitudinally corrugated tube. 3. Building element according to claim 1, characterized in that the base tube (10, 10a) is a longitudinally profiled tube, of regular or irregular polygonal section. 4. Construction element according to one of claims 2 and 3, characterized in that the base tube (1, 10, 10a) is made from corrugated or profiled sheet and is fixed at least on its longitudinal joint, by welding. 5. Building element according to one of claims 1 to 4, characterized in that the voids (5, 8, 12) between the base tube and the support tube or the support tubes are filled with a filling material. 6. Building element according to claim 5, characterized in that the base tube, or the support tube or tubes on their face opposite to the base tube, is or are provided with a coating, in particular formed of the material filling (13). 7. Building element according to one of claims 1 to 6, characterized by an inner tube which is placed there as lost formwork.  8. Construction element according to one of claims 1 to 7, characterized in that the filling material, and / or the coating material (5, 8, 12, 13), is a concrete, in particular a cement concrete -colloid. 9. Construction element according to one of claims 1 to 7, characterized in that the filling material, and / or the coating material (5, 8, 12, 13), is a polymer concrete or a polymeric foam material . 10. Building element according to one of claims 1 to 9, characterized in that several base tubes and support tubes are connected one after the other. 11. Building element according to one of claims 1 to 10, characterized in that when the base tube is located outside, it is provided externally with an anticorrosion coating.