FR3067615B1 - BOARD OF SLIDERS - Google Patents

Abstract

Snow sliding board (1), having a structure including: • a lower set formed (2) of a bordered gliding sole (7) of edges (8) and one or more layers (9) of lower reinforcement ; An upper assembly (3) formed of one or more upper reinforcing layers (12) and an upper protective and decorative layer (11); A core (4) interposed between the lower and upper sets (9) (3); An elongate element (20) extending in the longitudinal direction of the board, separating the core into two parts (21, 22), and coming into contact with the upper (3) and lower (2) assemblies, characterized in that the elongated element (20) is formed by the assembly of at least three layers extending vertically between the upper (3) and lower (2) assemblies, the three layers comprising a central layer (30) made of a material having a transverse Young's modulus greater than the transverse Young's modulus of the core material (21, 22), and two side layers (31, 32) in contact with the core layer (30), and made of an elastomeric material.

Description

BOARD OF SLIDERS

TECHNICAL FIELD The invention relates to the field of boardsports using a board, including snow sliding sports. It relates more specifically to an internal structure of board, and in particular ski or snowboard. It is more particularly a structure of the inner core of such a board, intended to improve both the performance and comfort of the user.

Previous techniques

Generally, a snow-sliding board has a structure comprising a lower assembly and an upper assembly, each including reinforcing layers, which are separated by an inner core to separate these stiff reinforcement layers from the fiber neutral. Such a sandwich-type structure thus has a rigidity in flexion and torsion that allows the board to evolve on the snow while ensuring both the contact of the sole glide on the snow, and Eaccroche side edges when the board is inclined.

In practice, the reinforcing layers are made of materials having a high rigidity, based on metal, or fibrous material impregnated with resin in the form of composite material. The core is made of a material that must have multiple qualities that are mainly a mass as low as possible, and a certain resistance to crushing.

Among the satisfactory materials for this core, we can note the light woods, such as poplar or balsa, or even the corrugated cardboard, as regards the boards whose core is manufactured before the molding of the whole of the structure. For skis whose core is made during molding, by injection of an expandable material into the space formed between the upper and the lower assembly, polyurethane foam is frequently employed. It has already been proposed to make complex cores, combining different types of materials.

Thus, document EP 2 384 464 describes a gliding board in the form of a snowboard, the core of which has in the central part an element of greater rigidity. This element is intended to serve as side edge when the board is cut in two along a longitudinal plane, to seal against the rest of the core.

In document FR 2 655 864, a gliding board combining different zones arranged in parallel in the longitudinal direction has also been described. These different zones are arranged so that they can move relative to each other during the molding of the board, so as to absorb deformations induced by the presence of localized reinforcing elements, or so as to achieve cores that have rugged shapes.

Presentation of the invention

One of the objectives of the invention is to provide a gliding board which has both good grip properties, in particular by improving these properties in transverse flexion, with a behavior however comfortable.

To do this, the Applicant has designed a board for sliding on snow, which has a structure including: • a lower assembly formed of a glide sole bordered with edges, and one or more layers of lower reinforcement; An upper assembly formed of one or more upper reinforcement layers, and a top layer of protection and decoration; • a core interposed between the lower and upper sets; An elongated element extending in the longitudinal direction of the board, separating the core into two parts, and coming into contact with the upper and lower assemblies.

According to the invention, this gliding board is characterized in that the elongate member is formed by the assembly of at least three layers extending vertically at least over the entire height of the core. These three layers comprise a central layer made of a material having a transverse Young's modulus greater than the transverse Young's modulus of the material constituting the core, and two lateral layers coming into contact with the central layer, and made of an elastomeric material. The invention consists in segmenting the core so as to increase its stiffness in flexion, its stiffness in transverse flexion, its stiffness in torsion with respect to a monolithic core without elongate element, while increasing the resistance to crushing of the core. These differences in stiffness are, however, felt to a lesser extent on the board since the lower and upper reinforcements strongly stiffen the core.

In particular, the improvement of the mechanical properties in particular in transverse flexion, thanks to the specific structure of the core makes it possible to favor the use of fibrous reinforcements which have limited transverse mechanical properties, but which are easier to conform than the metal reinforcements.

Moreover, the fact of separating the two parts of the core by this elongate element substantially modifies the dynamic behavior of the board. Indeed, the assembly obtained by the two parts of the core and the elongated element behaves as an assembly formed of a main mass with which is associated a dynamic mixer. Thus, when the board tilts on the edge, the portion of the core located near the edge in contact with the snow constitutes the main mass and the assembly formed by the other part of the core constitutes the mass of the drummer while the element Longiline is the stiffness and / or damping of the drummer. This makes it possible to obtain an offset of the resonant frequencies of the board, or even a decrease in the amplitude level at the resonance frequencies, this making it possible to obtain a less vibrating board on the edge, more anchored on its trajectory, the user enjoying the comfort obtained due to the reduction of vibrations. The elongated element being formed of three layers of elastomer-reinforcement-elastomer type, this makes it possible to choose the stiffness of the beater, more precisely by the choice of the central reinforcing layer and the damping of the beater by the choice of the elastomeric side layers. . In addition, the presence of the central reinforcement makes it possible to avoid significant transverse deformation and breakage between the two parts of the core, and allows elastomeric shear layers to be created inside to dissipate the energy and dampen the vibration level. . The invention can be implemented on different types of cores, and in particular the cores made of wood, or injected foam, typically based on polyurethane.

In practice, the elongate element extends over a portion of the length of the board, or even over the entire length of the core. In the first case, it can be located at different levels of the board, either at the front or at the rear, preferably with a presence at the level where the forces on the edges are exerted during the turning phases, to know at the level of the area where the fixation is located.

In the first case, the characteristic elongate element is associated with the other parts of the core before molding, or during molding. In the case of an injected ski, the characteristic element can be put in place inside the mold, and delimits two volumes in which the foam of the core will be injected during the molding operation.

In practice, the elongated member may have a central layer made of a material selected from the group consisting of aluminum, acrylonitrile butadiene styrene (ABS), or composite materials based on long or short fibers.

In practice, good results are obtained in terms of boarding of the board when cornering when the material of the central layer has a transverse Young's modulus greater than three times the Young's modulus of the core material, preferably greater than ten time.

In practice, the central layer of the elongate element may have a width of between 0.3 and 4 mm, preferably between 0.6 and 2 mm.

It is possible to adjust the desired mechanical properties by varying both the width of the central layer of the elongate member, and the material employed. Thus, good results have been obtained when the combination of these parameters makes the product between the width of the central layer and the Young's modulus of the material constituting it greater than 10000 mm.MPa, and preferably greater than 30000 mm. .mpa.

In practice, the side layers of the elongate element may be made of a material chosen from the group comprising rubber, thermoplastic polyurethanes, styrene-ethylene-butadiene-styrenes (SEBS), or else other materials with properties elastomeric.

In practice, the material of the lateral layers may advantageously be a viscoelastic material, which has a sufficient damping coefficient, and optimized for operation over a temperature range of -20.degree. C. and + 5.degree. ensure an efficient dissipation of the mechanical energy generated in the structure during the deformation of the board.

In practice, these lateral layers may advantageously have a width of between 0.1 and 1 mm, preferably between 0.3 and 0.7 mm.

In particular, in the case where the board is intended for the practice of alpine skiing, one obtains, for example, a first type of comfortable ski by using an elongated element composed of a central layer of ABS of thickness 2mm covered on each of its two lateral sides with a rubber layer of 0.5mm thick. A second type of comfortable and more efficient ski can be obtained by using an elongated element composed of a 0.6mm thick aluminum core layer covered on each of its two lateral sides with a 0.5mm rubber layer. thickness.

The principle of the invention can be declined by including a plurality of similar elongated elements arranged in parallel, or spaced from each other so as to form a larger number of portions of the core to create multiple dynamic drummers, or joined to each other to modify the parameters of the dynamic mixer and in particular its parameters of mass, stiffness and / or damping.

Brief description of the figures

The manner of carrying out the invention, as well as the advantages which result therefrom, will emerge clearly from the description of the embodiment which follows, with reference to the appended figures in which: FIG. 1 is a cross-sectional view of a board According to the invention, FIG. 2 is a detail view of the zone II of FIG. 1. FIG. 3 is a plan view of the core of the plate of FIG.

Of course, the dimensions and proportions of certain constituent elements of the invention may have been deformed, exaggerated and deviate from reality, in order to make the invention clearly understood.

Way of realizing the invention

As illustrated in Figure 1, the gliding board 1 comprises a lower assembly 2, and an upper assembly 3, separated by a core 4. More specifically, the lower assembly 2 comprises a gliding sole 7, typically based on of polyethylene, on which the fins of the metal edges 8 laterally rest. In the illustrated embodiment, this lower assembly 2 also includes a reinforcing layer 9. This layer may be made from different materials and in particular metal-based, or preferentially for matters of overall weight, by composite materials, including high tenacity fibers, such as glass, aramid, basalt or the like, mainly oriented parallel to the longitudinal axis of the board. It is of course possible that the lower assembly 2 includes several reinforcement layers of a similar or different nature and size, without departing from the scope of the invention.

The board 1 also includes an upper assembly, which comprises from the top a decorative and protective layer 11, resting on a reinforcing layer 12. The decoration and protection layer 11 can be made in different ways, and include on its underside apparent printed areas from the upper face of the board, or even transparent areas, to make apparent from the outside the reinforcing layer 12. Multiple alternative embodiments can be envisaged with respect to this layer decoration and protection, without departing from the scope of the invention.

In the form shown, the upper assembly 3 comprises a reinforcing layer 12, which may also be made in different ways, and in particular metal or preferably composite material. This reinforcing layer 12 can adopt different geometries depending on the overall geometry of the board, and in particular the possibly three-dimensional shape of the upper face of the board. This layer can also be multiple, by combining different thicknesses of identical nature, similar or different.

The upper 3 and lower 2 assemblies are separated mainly by the core 4, which is laterally bordered by the edges 5 which protect the core from the external moisture, and which ensure the transmission of forces from the upper assembly towards the edges 8 .

According to one aspect of the invention, this core 4 has a particular structure, since it includes an elongated element 20, which separates the core 4 into two left side portions 21 and 22. This elongate element extends as illustrated in FIG. Figure 3 along the entire length of the core, along its median longitudinal plane. However, in other variants not shown, this elongate member may be shorter, and extend only over a portion of the length of the core.

As illustrated in FIG. 2, this slender element 20 extends vertically between the upper 3 and lower 2 assemblies and has a height identical to that of the core. In other embodiments, the elongate member may be higher than the core and fit between two portions of an upper (or lower) brace, penetrating the upper (or lower as appropriate) assembly. In an unillustrated variant, the upper or lower assembly may each include a localized layer for interfacing the elongate member to the remainder of the upper or lower assembly.

This elongated element 20 is composed of several vertically assembled layers interposed between the two parts 21, 22 of the core. The central layer 30 of the elongate element is made of a material much more rigid than the rest of the core, and more precisely which has a Young's modulus in the transverse direction significantly higher than that of the material constituting the remainder of the core.

Various materials may be used to produce this central layer 30, and in particular metal materials and in particular aluminum-based materials such as aluminum alloy 7075, also known as "Zicral". Good results have been obtained with a thickness ei of this central layer 30 close to 0.6 mm. The transverse Young's modulus of this material is close to 70,000 MPa, compared with the transverse Young's modulus of wood used for the manufacture of cores, is generally between 500 and 1000 MPa. It will be noted in particular that, given the essentially longitudinal orientation of the wood fibers used for making the cores, the Young's modulus in the longitudinal direction of these materials is generally higher, between 5000 and 15000 MPa.

In an alternative embodiment, a polymeric material, and in particular ABS, may be used to form the central layer 30 of the elongated element 20, with a thickness ei of the order of 2 mm, this material having a module of Young in the order of 1,800 MPa.

According to the invention, this central layer 30 is lined with two lateral layers 31, 32 which are made of an elastomeric material. Good results have been obtained using rubber, a thickness e2 of the order of 0.5 mm.

The different layers of the elongate element are assembled together and with the rest of the core by gluing, for example.

Due to the presence of the characteristic slender element, an increase in the bending stiffness of the core has been observed. Given that most of the bending stiffness of the board is conferred by the presence of the reinforcing layers of the upper and lower sets, the impact of this increase in bending stiffness of the core on that of the board is however marginal. At the same time, there is an increase in the stiffness in transverse flexion and torsion of the core. Indeed, in particular in the case where the reinforcing layers of the upper and lower assemblies are based on unidirectional fibrous materials oriented longitudinally, the stiffness in transverse flexion imparted by these reinforcements is relatively limited compared to that measured in the longitudinal direction. . The contribution of the rigidity of the characteristic slender element is particularly important for the dynamic behavior of the board. An increase in torsional stiffness has also been observed due to the presence of the characteristic slender element.

Complementarily, the use of an elastomeric material, and advantageously viscoelastic, makes it possible to generate vertical shear phenomena during the bending deformation of the board, with a dissipation of energy to generate a certain damping.

Overall, the behavior of a board according to the invention, and in particular its dynamic behavior on the snow, makes it possible to obtain a board with improved grip when the board is on the edge and an inscription in the sharper curves. because of the attenuation of the vibrations, the board remaining more easily inscribed on its trajectory. In parallel, the damping effect generated by the combination of a rigid material and an elastomeric material within the elongated element provides the board with a certain softness in the deformation, and therefore a more comfortable board for the user.

Of course, even if the invention has been described in the examples for a "sandwich" type structure, it can also be applied to global "shell" structures, in which the upper assembly extends laterally vertically 'to join the lower set at the edge of the edges, encompassing the core without requiring side edges.

Claims (10)

CLAIMS 1 / snow sliding board (1), having a structure including: • a lower assembly formed (2) of a bordered sliding board (7) of edges (8) and one or more layers (9) lower reinforcement; An upper assembly (3) formed of one or more upper reinforcement layers (12) and an upper protective and decorative layer (ii); A core (4) interposed between the lower and upper sets (9) (3); An elongated element (20) extending in the longitudinal direction of the board, separating the core into two parts (21, 22), and coming into contact with the upper (3) and lower (2) assemblies, characterized in that the elongated element (20) is formed by the assembly of at least three layers extending vertically between the upper (3) and lower (2) assemblies, the three layers comprising a central layer (30) made of a material having a transverse Young's modulus greater than the transverse Young's modulus of the core material (21, 22), and two side layers (31, 32) in contact with the core layer (30), and made of an elastomeric material. 2 / Gliding board according to claim 1, characterized in that the core (21, 22) is made of wood. 3 / Gliding board according to claim 1, characterized in that the core (21, 22) is made of injected foam, typically based on polyurethane. 4 / gliding board according to claim 1, characterized in that the core layer (30) is made of a material selected from the group consisting of aluminum, acrylonitrile butadiene styrene, composite materials based on fibers. 5 / Gliding board according to claim 1, characterized in that the material of the core layer (30) has a transverse Young's modulus greater than ten times the Young's modulus of the core material. 6 / Gliding board according to claim 1, characterized in that the central layer (30) has a width of between 0.3 and 4 mm. 7 / Gliding board according to claim 1, characterized in that the product between the width of the central layer and the Young's modulus of the material which constitutes it is greater than 10,000 mm.Mpa. 8 / gliding board according to claim 1, characterized in that the side layers (31, 32) are made of a material selected from the group consisting of rubber, thermoplastic polyurethanes, styrene-ethylene-butadiene-styrene. 9 / Gliding board according to claim 1, characterized in that the side layers have a width of between 0.1 and 1 mm, preferably between 0.3 and 0.7 mm. 10 / gliding board according to claim 1, characterized in that it comprises a plurality of similar elongate elements arranged parallel in the transverse direction.