FR2835266A1 - Construction method for protective working against moving mass impact comprises forming heavy body and placing inertia mass made of stacks of tires with elastic reactivity perpendicular to moving mass movement direction - Google Patents

Abstract

The method of constructing a protective working on a site against the impact of a moving mass consists of constituting a heavy body (4) from plastic materials on a seating surface (3). An inertia mass (6) with elastic reactivity, made from stacks of tires (81,82,83), is placed so that its greatest elasticity zones are directed perpendicularly to the general direction of the displacement of the moving mass. The heavy body is finished so as to totally enclose the inertia mass. Independent claims are included for a protective working and its use.

Description

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 The present invention relates to the technical field of construction in a general sense, including the production of structures exposed to falling projectiles originating, for example, from landslides or landslides.

 Traditionally, such structures are not dimensioned securely taking into account the errors adopted both on the types of shocks involved and on the design methodology.

 Reinforced concrete type structures have been proposed, for example, calculated on the optimistic assumption of only taking into account a minimum final kinetic energy corresponding to the soft shock assumption where most of the total incident energy dissipates in other forms such as deformation, heat ...

 Another known solution consists in constructing a protective structure interposed between the structure to be protected and the probable sources of projectiles.

This is the case of merlons intended to protect mountain roads. This is also the case with protective mattresses placed above the structures to be protected.

 In the above cases, the errors cited above also lead to an undersizing of the structures and, in the case of the mattresses, to an insufficient reduction of the permanent stresses on the structures thus covered.

 In this regard, it has been proposed by French patent FR 2 587 051, a technique based on the construction of a light mass in order to reduce the stresses applied, either to the underlying layers or to the benches supporting them, or even to the underlying or surrounding constructions. The proposed technique however aims only to reduce the stresses applied to a structure and not to prevent any structural deterioration caused by the impact of projectiles.

 The light mass which is the subject of this French patent is produced by means of tires devoid of mutual connections and of filling materials and thus constituting a mass body which is associated with an immobilization and anchoring layer. Such a solid mass not only makes it possible to reduce the stresses applied to the underlying structures, but also exhibits characteristics of flexibility and shock absorption.

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 However, the means used in such a proposed method generally do not lead to a solid mass making it possible to prevent any deterioration of the protected structure caused by the impact of projectiles. Indeed, the presence of a layer of materials having elastic properties is not of a sufficient nature to avoid such deterioration.

 The present invention aims to overcome these shortcomings by proposing a new process for producing a protective structure intended to prevent any structural deterioration caused by the impact of projectiles, such as landslides or landslides, as well as a structure resulting from such a process, whether carried out independently or, on the contrary, integrated into a structure to be protected.

 To achieve the above objectives, the invention relates to a method of constructing a structure protecting a site against the impact of a moving mass, a method which is characterized in that it consists in: - constituting partly a solid body from plasticizable materials, - include in said body an inert mass with elastic reactivity by arranging this mass so that its zone or zones of greatest elasticity are oriented, by at least one face, perpendicular to the direction general movement of the moving mass, - finish building the body of the bed so as to completely enclose the inert mass in said body.

 The present invention also relates to a protective structure for a site, characterized in that it comprises: - a body of solid mass based on plasticizable material, - an inert mass of material with elastic reactivity included in said body.

 Various other characteristics will emerge from the description given below, with reference to the appended drawings which show, by way of nonlimiting examples, embodiments and implementation of the object of the invention.

 Figure 1 is a schematic elevation of a protective structure in a first embodiment according to the invention.

 FIG. 2 is a plan view taken partially, on a larger scale, along the line II-II of FIG. 1.

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 Figure 3 is a schematic elevation similar to Figure 1 but illustrating an alternative embodiment.

 Figure 4 is a perspective showing, on a larger scale, the particular structure of one of the constituent elements of the object of the invention.

 Figures 5 and 6 are schematic views showing other alternative embodiments of the object of the invention.

 Figure 7 is a cross section of another embodiment of the subject of the invention.

 As recalled above, the object of the invention is to provide protection for a structure such as 1, shown schematically and partially in FIG. 1, against the impacts of one or more moving masses, including the direction of movement is for example shown diagrammatically by the arrow FI.

 To ensure the protection of the structure 1, the object of the invention recommends the construction of a protective structure designated as a whole by the reference 2 and which involves, in the form of implementation illustrated by FIG. 1, the following successive steps.

 We proceed first and in general, to the realization of a seat surface 3 so as to have a plan of establishment which is advantageously leveled. This surface 3 can be formed directly by the ground or by adding any suitable material, in particular geotechnically, or even by a so-called drainage sole, which is made up in any suitable manner known in the art.

 On this seat surface 3, we proceed to the elevation of a body of solid mass 4, for example for final use, of truncated pyramid or trapezoidal in section, as is known for the establishment of merlon. The body of the bed 4 is made from plasticizable materials. By plasticizable character, it is advisable to consider any type of material able to constitute a mass of suitable density and determined rigidity. It can therefore be any suitable material and among these within the meaning of the invention, it is appropriate to retain, by way of example, cuttings materials, demolition crushes, which can be deposited in successive layers , in bulk or in heaps, compacted or not, so as to establish a sort of base contributing to reserving or delimiting an open cavity 5, for example

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 by elevating the body of block 4 to levels Ni and N2. These two levels, given by way of examples, are characteristic and determining only in the example of implementation according to FIG. 1.

 In a next step, a so-called inert mass 6 is formed, as opposed to the mass or projectile considered in potential movement in the foregoing.

 This mass 6 has the characteristic of being made from materials having elastic reactivity with deformability and determined friction index.

 Different types of material meeting such requirements can be used to constitute the volume defining the mass 6. In an example as illustrated in FIG. 1, this mass 6 is formed by the juxtaposition of tires 7, advantageously discarded, which are arranged in a stack or in successive layers such as 81, 82, 8n, so as to define the volume envelope to be imparted to the mass 6. Preferably also, the tires are arranged as illustrated in FIG. 2, in staggered rows in each layer and within each. According to the invention, these tires have no connection between them, and no addition of any material is made to fill the voids that the tires delimit.

 The mass 6 is formed directly or from the support defined by the bottom of the cavity 5, in such a way that the area (s) of greater elasticity defined by the mass 6 are oriented by at least one face such as the face 6a perpendicular or substantially perpendicular to the general direction of movement of the hypothetical mass in movement in the direction Fi.

 If FIG. 1 represents a mass 6 which can be considered as defining a regular prismatic envelope, it must obviously be understood within the meaning of the invention that such a mass could have a different shape and, for example, include a thickness locally variable material layer offering intrinsic elastic reactivity.

 In a next step, the formation of the body of the body 4 is continued from the levels N1 and N2 so as to completely enclose the mass 6 in the body of the body which can be supplemented, in particular at the top, by the addition

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 of a drainage layer 9, in particular of topsoil, in the case of will to plant plants, for example.

 The solid 4 can be advantageously compacted during the supply of the materials from the Ni and N2 levels, and, in certain cases also, it can be envisaged to include, inside the plasticizable materials, suitably distributed reinforcements and offering non-zero tensile strength. Such frames, as illustrated in bold lines by the reference 10, can be established either in superposed horizontal levels, or in oblique planes, or even in vertical direction, or even in interlaced networks, that is to say of any suitable and appropriate way to contribute to the cohesion imparted by compaction to the materials constituting the body of the bedding 4.

 By way of example, the reinforcements 10 can be made from layers of unpolluted plastic waste.

 In a subsequent step, the protective structure is preferably completed by ensuring the constitution on at least a part of the external surface of the body of solid mass 4 or even on at least part of one of the faces of this body, of a facing 11, the function of which is to ensure that the constituent materials of the body of the body 4 are held in place, but also to offer a tensile strength as well as a determined coefficient of friction. The facing 11 can therefore be produced in several different ways by a single type of filler material, or even by a combination of several, and in this regard, it can be chosen to constitute it by a stack 12 of tires, preferably but not necessarily linked together and which are capable, if necessary, of being supplemented by filling with topsoil when it is desired to perfect the protective structure by planting plants.

 It can therefore be envisaged to produce the facing 11 only by means of stacks of tires 12 associated with a filling of topsoil or else to complete this stack with a stabilization riprap, for example based on crushed demolitions. It can also be envisaged to link the facing to the body of solid mass 4, for example, by means of reinforcements of the reinforced earth or geotextile type.

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 Examination of FIG. 1 shows that the protective structure thus produced offers the impact of a mass in movement in the direction FI a characteristic of resistance to impact by the friction and the tensile strength offered. by the facing 11, a characteristic of absorption by the mass that constitutes the body of solid 4 and a damping function by the presence of the mass or elastic cushion 6 located in the heart or near the heart of the structure.

 In this way, an effective protection of the structure 1 is ensured which is guaranteed against the disorders likely to be inflicted by the kinetic energy stored by the moving mass and imposed on the structure.

 Figures 3 and 4 show an alternative embodiment in which, for an implementation similar to that of Figure 1, the mass 6 is constituted by the juxtaposition of elementary blocks 12 which are constituted by heterogeneous or homogeneous plastic waste , compressed and constrained under load so as to have their own cohesion making them resistant, coherent, easy to handle and stackable. The constraint can be established by compression links such as 13 or also by welding perforations resulting in at least partial fusion of the compressed waste.

 FIGS. 5 and 6 show as a variant that it is possible to produce the inert mass with elastic reactivity 6 in a form homothetic to that of the body of the body 4 by placing this mass 6 either at the heart of this body of the body as the shows FIG. 5, either in abutment on the seat surface 3 as shown in FIG. 6.

 In the first example illustrated by FIGS. 1 and 3, the protective structure is constituted independently of the structure 1 to be protected, to ensure the protection of the latter by an arrangement, for example lateral to at least one of the sides or facades of the structure 1. Such a structure 1 can be a work of art, a road, a construction, a building, or even a bridge abutment, all these examples being given only by way of illustration.

 The object of the invention can however be implemented in a different way by providing for carrying out the protective structure in an integrated manner, as can be the case on the basis of FIG. 7, when the structure to be protected is for example

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 constituted by the envelope 14 of a tunnel 15 arranged in a solid mass 16. In such a case, the object of the invention can be implemented to ensure the protection of the tunnel 15 by planning to constitute above this last, the body of the bed 4 reserving the cavity 5 occupied by the mass 6, the preferred orientation of which is always chosen so that it offers its zone or zones of greater elasticity substantially perpendicular to the hypothetical trajectory FI of a mass in movement.

 The invention is not limited to the examples described and shown since various modifications can be made without departing from its scope.

Claims (21)

1-Method of constructing a protective structure for a site against the impact of a moving mass, characterized in that it consists in: - partially forming a body of solid mass from plasticizable materials, - including in said audit body an inert mass with elastic reactivity by arranging this mass so that its zone or zones of greatest elasticity are oriented, by at least one face, perpendicular to the general direction of movement of the moving mass, - finish the constitution of the body of mass so as to completely enclose the inert mass in said body.  2-A method according to claim 1 characterized in that it consists in covering at least the surface part of the body of solid mass subject to the risk of impact, with a resistant protective facing offering non-zero characteristics of tensile strength and friction.  3-A method according to claim 1 characterized in that includes in the body of massive reinforcements providing non-zero tensile strength.  4-A method according to claim 1 characterized in that constitutes the body of the massif from cuttings and / or crushed demolition.  5-A method according to claim 1 characterized in that the inert mass is formed from juxtaposed tires.  6-A method according to claim 1 characterized in that constitutes the inert mass based on juxtaposed elementary blocks of compressed and constrained plastic waste.  7-A method according to claim 2 characterized in that it constitutes the facing based on stacks of tires.  8-A method according to claim 1 characterized in that it constitutes the structure as an independent block.  9-A method according to claim 1 characterized in that the structure is constituted as a solid mass integrated into a site to be protected.  10-A method according to claim 1 characterized in that there is the inert mass with elastic reactivity at the heart of the body of the block. <Desc / Clms Page number 9>  11-A method according to claim 1 characterized in that there is the inert mass with elastic reactivity resting on a seat surface in relation to the body of the bed.  12-Protective structure of a site characterized in that it comprises: - a body of solid mass (4) based on plasticizable material, - an inert mass (6) of material with elastic reactivity included in said body.  13-A structure according to claim 12 characterized in that it comprises a facing (11) protective and resistant in relation to a part of the outer surface or of or one of the external faces of said body of block.  14-A structure according to claim 12 characterized in that the body of the block is made of general material.  15-A structure according to claim 12 characterized in that the inert mass (6) with elastic reactivity consists of tires (7) devoid of connection and filling.  16-A structure according to claim 12 characterized in that the inert mass with elastic reactivity consists of elementary blocks (12) of compressed and constrained plastics waste.  17-A structure according to claim 15 or 16 characterized in that the tires or the blocks are arranged in successive layers and staggered relatively from one layer to another.  18-A structure according to claim 13 characterized in that the facing is made from stacked tires.  19-A structure according to claim 12 characterized in that the body of the mass includes reinforcements (10) having a non-zero tensile strength.  20-Use of the structure according to one of claims 12 to 18 as an independent block placed laterally at a site to be protected.  21-Use of the structure according to one of claims 12 to 18 as a solid mass integrated into a site to be protected.