FR2566027A1 - Lightweight construction in the form of a building - Google Patents

Abstract

Lightweight construction in the form of a building, consisting of a plurality of load-bearing elements 3, 5, 9 bearing firmly on a rigid base 1-4, characterised in that it comprises an elastic tensioning member 10 anchored in the said rigid base 1-4, which member traverses the said load-bearing elements 3 and is connected to the reinforcement 4-6 of the building. Application: timber construction.

Description

LIGHT CONSTRUCTION IN THE FORM OF A BUILDING.

 The invention relates to a new type of light construction in the form of a building, in particular for residential use.

 The problem with light constructions, such as wooden ones in particular, is to make them stand on the ground to prevent them from blowing off. To date, to do this, we that the different load-bearing elements on a rigid base which is generally the foundation, then we hang the different elements together by assembly. This solution, although very widespread, has many drawbacks mainly due to the fact that the different elements work in compression and traction, which, on the one hand, complicates the production of the assemblies and, on the other hand, often leads in the long run to disorders in these assemblies.

 For a long time, a light construction system has therefore been sought by assembly on load-bearing elements which is easy to produce, or stable above all over time, while ensuring perfect anchoring of the building in the ground.

 This light building-like construction, constituted by a plurality of load-bearing elements supported on a rigid base, is characterized in that it comprises an elastic tensioning member anchored in said rigid base which passes through said load-bearing elements and is connected to the frame of the building.

In other words, the invention consists
- firstly, to anchor an elastic tensioning member on a rigid base, such as the foundation,
- then, to pass through this tensioner the carrier element which rests on the rigid base,
- to connect this tensioner to the frame of the building,
- And finally, to stretch this tensioning member to thus ensure by compression the assembly of the assembly and its wind resistance.

 As is known, in a construction, a "load-bearing element" designates an element on which the various elements of the structure and framework rest. It can be a post or pillar or sometimes even a sign.

 Likewise, "the frame" designates the rigid and / or fixed parts of the construction and more particularly the frame.

Advantageously in practice, in the invention
- the load-bearing element is a post, in particular a corner post
- the rigid base is either the foundation or a floor in the case of an offset construction
- The tensioning member is a metal cable which exhibits practically no hysteresis under the conditions of use; it can be another type of cable, insofar as it resists external aggressive agents over time, does not change and does not creep
- the light construction is made of wood, sheet metal or plastic or any other assembled element capable of flying away under the effect of the wind and which must therefore be firmly moored to the ground
- the cable is anchored to the rigid base, in particular to the foundation (rock, masonry, etc.) by any appropriate means, in particular using a sealed hook and the tension of the tensioning cable is also ensured by all appropriate means, such as jacks, etc.

The technique of pre-stressed concrete has been known for a very long time. In this technique used to make beams and floors better resist vertical stresses and loads, and thereby work better in bending, cables embedded in concrete compensate for stresses by acting horizontally. On the other hand, in the solution according to the invention:
- on the one hand, the functions are different, since
the tension cables act vertically and not
horizontally and act by compression to
assemble the elements and not to compensate for
charges,
- and on the other hand, the results are also dif
important, since in the case of pre-stressed concrete
we aim to improve resistance to loads,
whereas in the invention, we increase this
load on the load-bearing elements to obtain the
wind resistance.

 Thus, the invention does not arise from this state of the art, known moreover for a very long time.

 The manner in which the invention can be implemented and the advantages which result therefrom will emerge more clearly from the following exemplary embodiments, given by way of non-limiting illustration in support of the appended figures.

 Figures 1,2 and 3 symbolize three embodiments in accordance with the invention.

 Figure 4 is an exploded summary perspective view of an exemplary embodiment of a corner post according to the invention.

Figures 5 and 6 show respectively in vertical section (Figure 5) and in horizontal section along
II '(Figure 6) of such a corner post.

Figures 1,2 and 3 show as already said, different embodiments of the invention. In these figures, the reference (1) designates the foundation, such as for example the rock or a masonry anchored in the ground. On this foundation (1), a low floor (2) rests, then a vertical load-bearing element (3), such as a corner post or an indoor post which, in turn, receives an intermediate floor (4 ). Depending on the case, this intermediate floor (4)
either, the same length as the low floor (2)
and then receives another carrier element (5) worm
tical aligned with (3) and on which the
traditional frame (6) (figure 1) reinforced
possibly by a beam (7) (Figure 3),
either, overflows the low floor (2) to form a
recess whose end (8) receives another
offset post (9) (figure 2).

An elastic rigid cable (10) is anchored in the foundation (1). This tensioning cable (10) characteristic of the invention must resist aggressive external agents and not creep over time. It is advantageously made up of stranded elementary cables of stainless steel. This anchored cable (10) crosses in order
- the low floor (2) through the orifice (17),
- the first vertical corner post (3) by the
channel (16),
- the intermediate floor (4),
- possibly, in series a second vertical post
cal (5),
- and finally, clings to the frame of the frame
ment, that is to say, either the frame (6) (see
Figures 1 and 3), either on the intermediate floor (4)
(figure 2) which in this case forms both arma
ture for the cable (10) passing through the first po
sheet (3), and the rigid anchoring base for a
second identical parallel cable (11) through
then the second post (9) and clinging to its
frame tower (6) (figure 2).

 The end of this cable (see Figures 4 and 5) forms a loop (12) which is engaged in a hook (13) provided for this purpose and sealed at (14) in the foundation (1). Conventionally, this fcndation (1) is covered with a bituminous felt (25), itself covered in turn with a low leveling arm (15). The cable (10) attached to (13), therefore sealed in the foundation (1), then passes through an orifice (17) drilled for this purpose in the low floor (2), then passes through a channel (16) formed in the longitudinal direction of the corner post (3).

 This corner post (3) which forms a supporting element (see FIGS. 5 and 6) essentially consists of a square assembly of four elementary boards (18) the interior of which is filled with insulating material (19).

This square receives in its center a PVC or similar tube (16) through which the cable (10) passes. Each elementary board (18) has on the outside a notch intended to receive a false positioning tab (20) of the panel frame (21) intended to form the wall. The reference (22) designates the exterior cladding of the construction, and the reference (24) designates a joint cover disposed between two successive panels (21), finally the reference (34) designates a sealing sheet.

 The upper end (26) of the cable (10) which exits from the top of the post (3) in turn crosses the top rail (27) and the support and distribution plate (28).

This end (26) also has the form of a loop intended to come to engage in a hook (29) associated with a mechanical jack (30) whose tightening is controlled by a nut (31) placed on another plate of distribution (28) positioned either in the frame (6) (see Figures 1 and 3), or at the end (8) of the rigid floor (4) notched (Figure 2).

 The reference (32) (see Figure 5) designates the floor itself, while the reference (33) designates the ceiling.

 The installation is carried out as follows.

The hook (13) is sealed in the foundation. It is hooked into the loop (12), then the cable (10) is passed through the tube (16) of the support post (3). The hook (29) and its associated jack (30) are put in place. We engage the loop (26) in this hook (29) and tighten the nut (31) which then rests on the plate (28). The cylinder (30) is tightened by the nut (31) until the cable (10) is perfectly tensioned. The nut (31) is then covered by a new floor (34) or by the covering of the frame.

 Thus, once made, it is no longer useful to intervene on the assembly.

 As before, the elementary panels (21) are positioned between each element (3) by bearing on the floor (17), the assembly under the effect of this compression is secured and tightened.

 Thanks to the anchoring of the cable on the foundation and to the tension applied to it by the hook (29), the element (3) is thus perfectly positioned and resistant to external forces, in particular to the wind.

 The assembly according to the invention has many advantages over the solutions known to date.

We can cite
- the ease of implementation
- The fact that the elementary panels (21) and the various other parts such as the floor (2), are then easily put in place by simple embedding and not by screwing, tightening or any other technique used
until then
- the fact that the assemblies all work together and not only in compression;
- An appreciable saving both in terms of assembly since it is not necessary to use assembly parts as in terms of the speed of this assembly.

In this way, this solution can be used before
tagging for light constructions, in particular in wood, in the form of a building for residential use or even
for industrial use.

Claims (8)

 1 / Light construction in the form of a building, consisting of a plurality of load-bearing elements (3,5,9) firmly resting on a rigid base (1,4), characterized in that it comprises a tensioning member (10 ) elastic anchored in said rigid base (1,4) which passes through said load-bearing elements (3) and is connected to the frame (4,6) of the building.  2 / A construction according to claim 1, characterized in that the carrier element (3) is a post, in particular a corner post.  3 / Construction according to claim 1, characterized in that the base (1) is the foundation.  5 / Construction according to claim 1, characterized in that the rigid anchoring base is an intermediate floor (4).  6 / Construction according to claim 1, characterized in that the tensioning member (10) is a metal cable.  7 / A construction according to claim 1, characterized in that the load-bearing elements (3) are associated with vertical panels (21) forming walls.  8 / A construction according to claim 1, characterized in that the tensioning cable (10) is anchored (12) in a hook (13) sealed in the foundation (1).  9 / Construction according to one of claims 1 to 8, characterized in that the other end of the tensioning cable (10) has the form of a loop (26) engaged in a hook (23) associated with a jack (30), controlled by a nut (31) bearing on a plate (27) positioned in the frame (6).