CA2636921A1 - Process for reinforcing a building structure, and structure thus reinforced - Google Patents

Abstract

Method for reinforcing a construction structure (1), comprising the following steps: a) placing in a part (11, 12) of the structure (1) an anchoring element (3) integral with strands of reinforcing threads ( 41, 42) so that the anchoring element (3) is at least partly included in the part (11, 12) of the structure (1) and at least one portion (42 ) strands of reinforcement son emerges from a portion (12) of the work (1); b) securing the anchoring element (3) to the part (11, 12) of the structure (1); c) applying by gluing at least one layer of tissue (5) to a surface (15) of the work (1) so that at least a portion of the portion (42) of the strands of reinforcing threads emerge is secured to the surface (15) of the structure (1) by bonding said layer of tissue (5). Construction work thus produced. Anchoring element of a construction work.

Description

METHOD FOR STRENGTHENING A CONSTRUCTION WORK, AND WORKING SO REINFORCED

The present invention relates to the field of structural reinforcement of construction works.

In this area, it is usual to stick reinforcements by means of appropriate resins on parts of a book to strengthen.

In a conventional method commonly applied, says Lhermite process, the reinforcement consists of a steel sheet glued on concrete after preparation of the surface of bonding. This classic process has followed various evolutions taking account in particular of the technological evolution of materials, and more particularly the evolution of replacement materials of the sheet, which poses frequently problems of implementation and requires provisions to fight corrosion.

This is how we have seen the last years reinforcement techniques based on composite materials in the form of glued plates (see for example FR-A-2 594 871), then in the form of bonded fibers (for example EP 0 441 519) and of bonded fabrics (see for example FR-A-2 747 146). These latter types of reinforcement have many advantages.
their convenience of implementation and their ability to apply on surfaces of various shapes.

These different types of bonded reinforcement greatly improve significantly the dynamic behavior of the work strengthened. It is very rare to observe a rupture of the reinforcement itself.

These reinforcements are well suited to strengthen and / or repairing structures, particularly masonry or reinforced concrete and are implemented on elements of

2 such as, for example beams, poles, slabs, walls.

They can also be used to link building elements between them.

However, their implementation requires power access the surfaces of the elements to be reinforced in order to arrange the fibers in the areas to be reinforced.

This access can be difficult and / or expensive in certain works or when particular requirements of resistance of a building are desired.

We can mention the case of earthquake reinforcement, where It is important to strengthen not only the elements constitute a work, but also to ensure general stability of the elements between them, and for example to ensure a link between elements of which a part is inaccessible or hidden.

As an example of a difficult access part, one can quote foundation footings, buried walls, partially or totally buried.

In such cases, it may be possible to dig excavations, reinforce and then fill excavations, but the result would be large scale, expensive, or even difficult to implement for example in the case of joint ownership.

The present invention aims to obviate disadvantages above and improve the reinforcement construction work, particularly in cases where a part of the work is not directly accessible.

The invention thus proposes a method for reinforcing a construction works, comprising the following steps:

3 (a) have in one part of the work an element anchor secured to strands of reinforcing threads so the anchor element is at least partially included in the part of the work and that at least a portion strands of reinforcing threads emerge from a part of the work.

b) secure the anchoring element to the part of the book;

c) applying by gluing at least one layer of tissue on a surface of the structure so that at least part of the portion of the strands of reinforcement emerges is secured to the surface of the work by the bonding said layer of tissue.

Thanks to the method according to the invention, it is possible to reinforce a construction structure by solidifying elements of the structure whose access is difficult and / or not directly accessible for a recovery of work.

After having secured the different elements, in particular the anchoring element to the work, the locks of fibers to a surface of the work by gluing at least a tissue layer, the charge transfer can be between the part where the anchoring element is the part of the structure on the surface of which is glued the tissue layer. It can thus advantageously proceed to load transfers between several zones or several parts of the book and thus obtain works whose resistance is very significantly improved. Such works are likely to resist effectively to earthquakes.

According to different embodiments, which can to be combined:

4 the method further comprises a preliminary step of creation of a cavity, in particular by drilling, in the part of the structure to house at least part of the element anchor;

the strands of reinforcing threads comprise fibers of carbon ;

- the locks of reinforcing threads are prepreged with a resin;

the anchoring element is of elongated shape, in particular substantially cylindrical;

the anchoring element is metallic, in particular steel or composite material, in particular comprising reinforcing fibers impregnated with a resin;

the joining of the strands of reinforcing threads to the anchoring element is made by threading said wicks in a return part at one end of the anchor element;

the fastening of the anchoring element to the part the work is done by sealing, particularly with a grout of cement or concrete, or with a resin;

- the layer (s) of fabric glued on the surface of the structure connects (s) two different parts of the construction work;

the anchoring element is arranged in a first part of the work and at least part of the portion strands of reinforcing threads that emerge are secured by tissue layer bonding on a surface of a second part of the book.

The anchor element can take many forms and may be of various sizes. An elongated shape is favorite, but it is quite possible to him to give a shape where two dimensions would be of the same order of magnitude, like a plate.

Similarly, if a cylindrical shape is advantageous, it It is also possible to use anchors from

5 parallelepipedic shape. It is also possible to give a hairpin shape to the anchor element where two cylinders are connected to each other by an arc.
The anchor may include a portion of return for threading strands of reinforcing threads, but it is also possible to secure the locks of reinforcing wire to the anchor element by any other means as for example by bonding to the reinforcing element or knotting reinforcing fiber locks on the element of reinforcement.

The return part may consist of a hole, especially oblong, in the anchor element, but also by a curved part of the anchoring element which forms a loop or hook, by a ring integral with the element anchoring, through the bow of a shaped anchor hairpin, or by any other means capable of allow the fastening of the reinforcing thread locks with the anchor element.

The bonding operation of at least one layer of fabric can be done according to the teaching of patent FR 2 747 146 or any other known tissue bonding technique of the skilled person.

The invention also relates to a construction work, part of which comprises at least one anchoring element part included and secured to the said part, reinforcing threads secured to the anchoring element at least a portion of the strands of reinforcing threads emerge of said part, at least one layer of tissue glued with

6 said portion of the strands of reinforcing threads on a surface of the book.

The invention also aims at an anchoring element of elongated, in particular cylindrical shape comprising at least one its ends an oblong hole likely to allow threading strands of reinforcing threads and forming a return part of the wicks.

According to different embodiments that can be combined the anchoring element comprises a first part of elongate shape, in particular a bar or a rush, and a second part in the first part, in particular by screwing, where the second part includes the hole oblong;

the anchoring element is made of steel or material composite.

Other peculiarities and advantages of this invention will become apparent from the following description examples of non-limiting embodiments, with reference to attached drawings, in which:

- Figure 1 shows a schematic sectional view lateral with perspective of a construction work according to the invention;

FIG. 2 represents a schematic view of a anchor element used in Figure 1.

For the sake of clarity, the dimensions of the different elements represented in these figures are not necessarily in proportion to their real dimensions.
In the figures, identical references correspond to identical elements.

7 Figure 1 illustrates a construction work 1 according to the invention, or the work 1 comprises a sole of foundation 11 surmounted by a semi buried wall.
slab 14 is fixed to the wall 12. The wall 12 is surmounted by a wall 13 that emerges from the ground. For example, the sole of foundation 11, the semi buried wall 12 and the slab 14 are in reinforced concrete and the wall 13 is masonry.

Dotted is a vertical axis. By convention, it will be said that this feature limits the outer face walls 12 and 13 and that the opposite side of these walls is an inner face.

In the illustrated work, the level of slab 14 is below ground level 6 so that face 15 of semi buried wall 12 is accessible while the face opposite of this wall is buried. The part of the semi wall buried 12 located below the level of slab 14 is as to him completely buried, as well as the sole of foundation 11.

In order to reinforce this structure, a cavity 2 has been dug at an angle in the wall 12 and the sole of In the example shown, the cavity 2 is substantially cylindrical and can measure several meters long and have a diameter of the order of a few tens of centimeters.

Then, in cavity 2, an element anchor 3 which includes an end 33 across which strands of reinforcement son were threaded. We formed a loop 41 with said locks so as to allow the locks to penetrate part of the cavity 2. The anchor element 3 is sealed, for example with a grouting cement or mortar, or concrete by filling the cavity 2. Figure 1 shows the zone 21 of the boy Wut inner face 15 of the wall 12 corresponding to the filling made after arranging and sealing another element anchor 3 in the structure in a manner similar to that described above. From this area of 21 emerges in beam portions 42 of strands of reinforcement son. said portions 42 of strands of reinforcing threads are joined together to the inner face 15 of the wall 12 by bonding with at least a layer of tissue 5.

It is possible to precollect portions 42 of wicks reinforcement threads on the face 15 then apply the or tissue layers 5, or to proceed in a single collage operation. The portions 42 of strands of reinforcement are usually covered by at least one layer tissue 5, but it is also possible that they are arranged and glued on top of a layer of tissue 5.
They can be included between two layers of tissue.

The tissue layer 5 is arranged in part on the inner face 15 of the wall 12 and partly on the face 16 of the wall 13. The result is a solidarity advantageous of all the elements of the structure, in particular of the foundation plate 11 and the walls 12 and 13, which allows in particular to increase the resistance seismic of the work 1.

It should be noted that in the work depicted the solidarization is performed between superimposed elements, but that the invention is in no way limited to that configuration and that we can just as well solidariser according to the method of the invention elements having a angle non-zero between them, even perpendicular to each other.
In the same way, it is possible to who would not be joined.

Figure 2 shows an example of an element anchor 3 according to the invention. This anchoring element 3 is composed of two parts, a part 31 of elongated shape, in this case a cylinder and a second part 33 that can to be secured to the portion 31 of elongated form.

Part 31 comprises at one end a zone threaded 32, preferably of smaller diameter than the remainder of this part 31.

It is noted that in the embodiment exemplified in FIG. 1, reinforcement element 3 is totally included in the structure 1 and is thus protected from corrosion allowing especially the use of steel.

Part 31 may be made of steel, in particular HA steel, or composite, comprising reinforcing fibers long or short and a resin. This part 31 can be full or hollow.

Part 33 includes an oblong hole 34 and a step of screw (not shown) to allow the joining by screwing with the threaded zone 32 of part 31. The part 33 is preferably compact and of very long length less than the length of the elongate portion 31.
The oblong hole is intended for the passage of strands of reinforcing and forming a return portion for said wicks.
In order to avoid hurting these locks, for example at the moment where we put them in the hole 34 and / or when the element anchors and the bits are arranged in a structure and that efforts apply on the wicks, one can provide a contact surface 35 rounded with the shape of a needle eye in the area of hole 34 of the part 33 where the wicks will come into contact when the work is in charge.

It is also possible to assemble part 33 to the portion 31 of elongated shape by hot crimping or cold, or by gluing.

It is noted that the anchoring element according to the invention 5 is not limited to the above embodiment, but could as well be obtained by forging, cold or hot, from the end of a metal bar to form an oblong hole.

Such an anchor element can also be realized 10 with a rod made of composite material.

The invention is not limited to these types of realization and must be interpreted in a non limiting by encompassing any embodiment equivalent.

Claims (11)

1. Method for reinforcing a structure construction (1), comprising the following steps:

a) arranging in a part (11, 12) of the work (1) an anchoring element (3) secured to strands of reinforcement (41, 42) so that the anchoring element (3) is at least partly included in part (11, 12) of the work (1) and that at least one portion (42) of strands of reinforcing threads emerge from a portion (12) of the work (1);

b) securing the anchoring element (3) to the part (11, 12) of the work (1);

c) applying by gluing at least one layer of tissue (5) on a surface (15) of the work (1) so that at least a portion of the portion (42) of the locks of reinforcing wire that emerges is secured to the surface (15) of the structure (1) by bonding said layer of tissues (5). 2. Method according to the preceding claim further comprising a prior step of creating a cavity (2), in particular by drilling, in the part (11, 12) of the work (1) to house at least part of the element anchor (3). 3. Process according to any one of the claims characterized in that the strands of reinforcement include carbon fibers. 4. Method according to any one of the claims characterized in that the strands of reinforcement are prepreged with a resin. 5. Process according to any one of the claims preceding characterized in that the anchoring element (3) is elongated in shape, in particular substantially cylindrical. 6. Process according to any one of the claims preceding characterized in that the anchoring element (3) is made of metal, in particular steel, or material composite, in particular comprising reinforcing fibers impregnated with a resin. 7. Process according to any one of the claims precedents characterized in that the solidarity of the strands of reinforcing threads to the anchoring element (3) is performed by threading said locks in a part of reference (33) at one end of the element anchor (3). 8. Process according to any one of the claims precedents characterized in that the joining of the anchoring element (3) at the part (11, 12) of the structure is carried out by sealing, in particular with a grout of cement or concrete, or with a resin. 9. Process according to any one of the claims characterized in that the layer (s) of bonded fabric (s) on the surface (15) of the structure (1) connects two different parts of the work of construction. 10. Process according to any one of the claims preceding characterized in that the anchoring element (3) is disposed in a first portion (11) of the work (1) and at least a portion of the portion (42) of the locks of reinforcing thread that emerges is secured by gluing layer of tissue (5) on a surface of a second part (12) of the work (1). 11. Construction work, part of which (11, 12) includes at least partially anchored anchor (3) and secured to said portion (11, 12), thread locks reinforcement secured to the anchoring element (3) at least a portion (42) of the strands of reinforcing threads emerges from said portion (12), at least one layer of tissue (5) bonded with said portion (42) of the strands of reinforcement on a surface (15) of the structure (1).