EP0692284A1 - Ski damping device and ski provided with such a device - Google Patents

Abstract

A casing rigidly connected to the ski has an opening (40) for the passage of the free end of an elongated flexing force transmitter. An internal housing (41) provides a clearance for this free end during translation in the longitudinal direction in normal use conditions, without abutting against the casing. Shock absorbing plates inside the housing consist of L-shaped rigid supports (50,60) and a layer of visco-elastic material (51,61). When in the locked position these plates exert a braking force on the displacement of the free end during ski flexure. Indexing (7) allows selection of a number of plates to be locked in translation in the housing. The visco-elastic layer shears during displacement of the free end in the housing. <IMAGE>

Description

The invention relates to a new damping device for skiing, such as an alpine ski, a monoski or a snowboard. It also relates to skiing provided with such a device.

In behavior on snow, current skis are subjected to shocks or more or less prolonged bending stresses causing vibrations of the ski. These vibrations are for the most part harmful parasitic effects which cause a loss of grip ski / snow affecting the handling and the stability of the ski.

Various solutions have already been proposed to improve the vibratory behavior of a ski. The document FR-A-2575393 proposes to have a device of reduced length compared to the carrying length of the ski and its positioning is carried out in the zones which are determined according to the types of vibrations which it is desirable to absorb. .

Another more recent solution published in FR-A-2675392 consists in resuming the bending forces applied to the ski through a bending blade, one end of which is fixed to the ski and the other end is linked to an interface. made of viscoelastic material subjected to the shearing of the blade. The interface can either be connected directly above the ski, or even connected to the internal face of a stirrup or a protective cover.

One of the main advantages of such a construction is to obtain satisfactory vibration damping by using a system whose overall height on the ski is reduced to a minimum. The damping effect is accompanied by a dynamic stiffening of the ski, which is a function of the length of the bending blade and of the shear resistance opposite to the free end of the ski. On the other hand, the static rigidity of the ski is not affected by the arrangement of such a system since no prestressing is opposed to the free end by the damping means which operates in shear.

However, depending on snow conditions which can vary greatly, it appeared important to be able to modify the damping effect easily without having to change the ski or the damping device. In particular, it is necessary to be able to carry out these adjustments on the tracks with a minimum of tools and without excessive and delicate handling.

Other factors may necessitate the search for a modification of the damping effect in one direction or another such as for example the physical condition of the skier, the delicate passage in a bumpy place, the variety of disciplines in competition ( slalom, giant, downhill ......), etc.

The object of the present invention is to provide a satisfactory solution to these different needs by making it possible to modulate the damping effect according to different preselected positions of the device.

• un boîtier lié rigidement au ski muni d'une ouverture pour le passage de l'extrémité libre de l'élément allongé et un logement interne permettant le libre débattement de ladite extrémité libre en translation,
• au moins une plaquette d'amortissement guidée en translation dans ledit logement, comprenant au moins une couche en matériau souple et/ou viscoélastique en contact direct avec l'extrémité libre ;
• un moyen d'indexage permettant de sélectionner le nombre de plaquettes en position verrouillée en translation dans ledit logement, et dont la couche en matériau souple et/ou viscoélastique est sollicitée au cisaillement lors du déplacement de l'extrémité libre dans le logement.

For this, the invention relates to a damping device for skiing, more particularly downhill skiing, comprising at least one elongated element for transm ission of bending forces, oriented longitudinally with respect to the ski and having a free end, capable of moving longitudinally during bending stresses exerted on the ski, characterized in that the device also comprises;

• a housing rigidly connected to the ski provided with an opening for the passage of the free end of the elongated element and an internal housing allowing free movement of said free end in translation,
• at least one damping plate guided in translation in said housing, comprising at least one layer of flexible and / or viscoelastic material in direct contact with the free end;
• an indexing means making it possible to select the number of plates in the locked position in translation in said housing, and whose layer of flexible and / or viscoelastic material is subjected to shear when the free end is moved in the housing.

Thus, in a released position, the layer of flexible and / or viscoelastic material of the plate is not subjected to shearing and the plate is simply driven in translation by the displacement of the free end in the housing. In this case, the damping effect does not occur directly between the insert and the free end.

The damping effect therefore varies as a function of the number of damping pads placed in the locked position and whose interface layer is subjected to shear stresses. This positioning is carried out by means of the device's indexing means.

According to a more specific characteristic of the invention, the device comprises an upper damping plate whose layer of flexible and / or viscoelastic material is in contact with the upper surface of the free end of the elongated element and a plate d 'lower damping whose layer of flexible and / or viscoelastic material is in contact with the lower surface of the free end of the elongated element. This makes it possible to double the effective surface where depreciation takes place without greatly increasing the overall height of the device.

Preferably, each damping plate consists of a rigid support plate, extending longitudinally and guided in translation in said internal housing, and to which said layer of flexible and / or viscoelastic material adheres.

According to an advantageous characteristic, the indexing means consists of a set of interchangeable indexing pieces, each of which, relative to the others, locks a different number of plates in translation, between 0 and 2. Thus, the skier can easily modify the damping characteristics of his skis by a simple manipulation replacing one indexing piece by another without changing the ski. The parts can advantageously bear color markers, signs or the like to allow rapid identification of each of them in all circumstances. More specifically, each interchangeable indexing piece comprises at least one determined projection extending transversely with respect to the longitudinal direction of translation inside the housing and the depth of penetration into the housing determines the number of plates locked to the plate. rigid support of each plate being crossed in the transverse direction by at least one lumen of a shape complementary to the shape of the projection of each indexing piece.

According to another characteristic, the indexing means is constituted by a locking element adjustable in several different positions making it possible to lock from 0 to 2 plates in translation. In this way, the skier can simply actuate the locking element in one direction or another in order to modulate the damping effect of his skis. More specifically, the adjustable element comprises a projection extending transversely to the longitudinal direction of translation inside the housing and the depth of penetration into the internal housing is adjustable.

For perfect efficiency of the device in the transmission of forces, the end opposite to said free end comprises means for rigid connection with the ski of the screwing, vibration welding or other type.

• la figure 1 est une vue générale de dessus d'un ski muni de dispositifs selon l'invention ;
• la figure 2 est une vue de profil du ski de la figure 1;
• la figure 3 est une vue simplifiée de profil d'un dispositif selon l'invention ;
• la figure 4 est une vue de dessus de la vue de la figure 3 ;
• la figure 5 est une vue schématique en coupe selon la ligne I-I de l'avant du dispositif de la vue de la figure 4;
• la figure 6 est une vue en perspective éclatée de l'avant du dispositif selon l'invention ;
• la figure 7 est une vue de dessus du boîtier seulement ;
• la figure 7a est une vue de dessus de l'une des pièces d'indexage selon l'invention ;
• la figure 7b est une vue de dessus des plaquettes d'amortissement ;
• la figure 8 est une vue en coupe selon II-II de la vue de la figure 7 ;
• la figure 8a est une vue selon III-III de la vue de la figure 7a du jeu de pièces d'indexage ;
• la figure 9 est une vue de dessous du boîtier ;
• la figure 9a est une vue de dessous de l'une des pièces d'indexage ;
• les figures 10 à 15 montrent schématiquement le fonctionnement du dispositif d'amortissement dans chaque configuration de l'invention ;
• la figure 16 montre en perspective l'opération d'enlèvement d'une pièce d'indexage pour son remplacement sur le dispositif de l'invention ;
• la figure 17 est une vue de dessus d'un élément allongé de transmission selon l'invention ;
• la figure 18 montre une vue de côté de l'élément allongé de la figure 17 ;
• la figure 19 montre un détail de la partie fixe de l'élément allongé selon une variante ;
• la figure 20 est une vue similaire à la vue de la figure 5 selon une variante de l'invention.

Other objects, characteristics and advantages of the present invention will emerge from the following description of particular embodiments, given in relation to the attached figures, among which:

• Figure 1 is a general top view of a ski provided with devices according to the invention;
• Figure 2 is a side view of the ski of Figure 1;
• Figure 3 is a simplified profile view of a device according to the invention;
• Figure 4 is a top view of the view of Figure 3;
• Figure 5 is a schematic sectional view along line II of the front of the device of the view of Figure 4;
• Figure 6 is an exploded perspective view of the front of the device according to the invention;
• Figure 7 is a top view of the housing only;
• Figure 7a is a top view of one of the indexing parts according to the invention;
• Figure 7b is a top view of the damping pads;
• Figure 8 is a sectional view along II-II of the view of Figure 7;
• Figure 8a is a view along III-III of the view of Figure 7a of the set of indexing pieces;
• Figure 9 is a bottom view of the housing;
• Figure 9a is a bottom view of one of the indexing parts;
• Figures 10 to 15 schematically show the operation of the damping device in each configuration of the invention;
• FIG. 16 shows in perspective the operation of removing an indexing piece for its replacement on the device of the invention;
• Figure 17 is a top view of an elongated transmission element according to the invention;
• Figure 18 shows a side view of the elongated member of Figure 17;
• FIG. 19 shows a detail of the fixed part of the elongated element according to a variant;
• Figure 20 is a view similar to the view of Figure 5 according to a variant of the invention.

In Figures 1 and 2, a ski according to the invention is illustrated provided with a device (1) at the front and at the rear. The central zone (2) of the ski is left free to allow the mounting of the bindings.

Each device (1, 2) comprises an elongated force transmission element (3), one of the ends (30) of which is fixedly connected to the ski and the other end (31) of which is connected to the ski but free in translation and is introduced into a housing (4).

Between these two ends (30, 31), the elongated element is not connected to the ski. The front and rear devices can advantageously be of different length, and in particular, the length of the elongated element (1) at the front can be greater than that of the elongated element at the rear.

As shown in Figures 3 and 4, the fixed end (30) of the device can be held by screws (300) intended to pass through the elongated element and anchor in the body of the ski. At the other end (31); the elongate element enters through the opening (40) of the housing (4). The latter is also provided with several anchoring screws (400, 401, 402) so that it can be rigidly connected to the ski.

As illustrated in FIG. 5, the housing (4) comprises an internal housing (41) allowing free movement of the end (31) of the elongated element. It should thus be understood that the end can move freely in translation in the longitudinal direction of the device under normal conditions of use without being stopped in abutment against the housing itself or a part integral with the housing which can create an increase in the stiffness of the ski. The term free end (31) will be used in the following text to designate this end as opposed to the fixed end (30).

The device further comprises two damping plates (5, 6) inside the housing (41) of the housing. When they are in a locked position, these pads exert a braking force against the movement of the free end in the housing in translation when the ski flexes. More specifically, each plate (5, 6) consists of a rigid support plate (50, 60) having an L-shaped section and a layer of flexible and / or viscoelastic material (51, 61) bonded to the longest L bar. The plates (50, 60) are symmetrical with respect to the median longitudinal plane (P) passing through the free end of the elongated element. In the locked schematic position, the assembly of the two plates (50, 60) forms a U lying in section, the opening of which receives the free end (31) of the elongated element.

An indexing piece (7) located inside an external housing (42) of the upper surface (43) of the housing has the function of controlling the selective locking of the damping plates (5, 6) by at minus a vertical projection (70) extending transversely with respect to the longitudinal direction of translation of the plates inside the housing. The number of locked damping plates depends on the penetration length of the vertical projection (70) inside the housing (41). In the example of FIG. 5, the two upper and lower plates are held by the projection in an integral manner with respect to the housing. When a flexion is exerted on the ski, this causes a displacement in one direction or another of the free end (31) in the housing (41) and relative to the two plates (5, 6). The layers of flexible and / or viscoelastic material (51, 61) which are in direct contact with the free end (31) are subjected to shear together and dissipate the energy transmitted by the elongated element thus creating a damping effect maximum.

Preferably, the material chosen to constitute the interface layers (51, 61) must have adhesion properties with the free end and each support plate. The material can be an inorganic or organic sealant, for example, the shear modulus of which is between 0.5 to 6 MPa depending on the temperature. In this case, the material is sufficiently sticky with the elements with which it comes into contact to undergo significant shearing during the movement of the free end in translation in the housing.

The use of other materials such as rubbers or synthetic elastomers with damping properties is not excluded. However, it will be necessary to glue each layer (51, 61) with its respective support plate (50, 60) on the one hand, and with the surface of the free end on the other hand, by means of an adhesive. adequate.

Figure 6 shows an exploded view of part of the device before mounting. The indexing piece (7) comprises two vertical projections or pins (70) which pass through respective holes (44) of the external housing (42) to penetrate into the internal housing (41). Each plate (5, 6) also has two slots (54, 64) of shape complementary to the shape of the projections (70). The plates are mounted so that the lights (54, 64) and the holes (44) of the external housing (42) are coaxial.

The housing (4) also includes through holes (410, 411, 412) for positioning the screws and anchoring in the ski. Thus the indexing piece (7) also includes a bore (702) in coaxial correspondence with the rear bore (412) located in the external housing (42), to allow the passage of a screw for the joint fixing of the two elements (4, 7) on the ski.

Figures 7 to 7b show a part of the device before mounting in top view.

Figures 8 to 8b show this part with a sectional view.

FIG. 8a shows the play of the three interchangeable indexing parts (7) constituting the indexing means of the device. Each part has a part of common shape which adjusts in the external housing (42) of complementary shape and vertical projections with three different lengths (l1, l2, l3).

The length (13) is sufficient to penetrate sufficiently inside the internal housing (41) and pass through the openings (54, 64) of the plates (5, 6) to lock them both.

The length (12) is just sufficient for the projection to pass through the lumen (54) of the upper plate (5) and lock it while the lower plate (6) remains free.

The length (11) is zero or small so that no plate is kept locked and that both remain free in translation in the housing.

As shown in Figure 9, the width (l) of the internal housing (41) is very slightly greater than the width of each plate (5, 6) to the functional tolerances for correct guidance in translation.

The length L of the housing must be sufficient to allow free movement without abutment of the plates in translation.

The indexing piece (7) includes a clearance (703) in its rear and bottom surface to allow the passage of a screwdriver or a key and thus facilitate its removal from the internal housing (42) (Figures 8a and 9a) .

Figures 10 to 15 show the schematic operation of the device in each configuration.

In FIG. 10, the device is in the rest state, and the damping plates (5, 6) are blocked by the projection of length (13) of the first indexing part (7) of the means of indexing.

Figure 11 shows the same device when the ski is flexed. The free end (31) of the elongated element (3) moves in the direction of arrow F1, by a displacement value (d) relative to its initial position at rest. It then occurs inside the two layers of flexible and / or viscoelastic material (51, 61) significant shear forces. In this case, the damping effect of the device is maximum.

In FIG. 12, the device is in the rest state but only the upper damping plate (5) is blocked by the projection of length (l2) of the second indexing part (7), having replaced the first .

When the device is excited (FIG. 13), only the upper layer (51) undergoes the shearing forces due to the displacements (d) of the free end. Due to the adhesion between the lower layer (61) and the lower surface of the free end, the lower plate (6) remains integral with the free end and moves with it by the value (d). The amortization effect is therefore reduced.

In Figure 14, the device is in the rest state but no wafer is blocked in translation. The projection of length (l1) is insufficient to be able to penetrate into the slots provided for this purpose of the damping plates. When the free end moves, the two plates (5, 6) also move together by the same value (d). The amortization effect is zero or very limited. It is possible that a residual effect will still occur due to the lateral friction between the two layers of flexible and / or viscoelastic material and the edges of the internal housing (41).

The replacement of one indexing part by another is a very easy operation within the reach of anyone equipped with a few suitable tools. Figure 16 schematically illustrates the part removal operation. The first phase I consists of unscrewing the cruciform screw (402) holding the part in its housing. Then, the release of the part is easily carried out by engaging the flattened tip of a screwdriver in the release (703) and by operating a lever movement upwards (phase II). Just reposition a new one indexing piece and tighten the screw (402) to complete the replacement operation.

By way of nonlimiting example, FIGS. 17 and 18 show the shape of an elongated element of the device. It is a profiled element, preferably made of plastic material, loaded or not, having good buckling resistance properties but retaining a certain flexibility in bending. The fixed end (30) comprises bores (301) intended for the passage of the screws (300). A longitudinal stiffening rib (32) extends substantially over the entire length of the element. The width and thickness of the element are reduced at the free end (31) so as to limit the size of the housing on the ski. The free end ends with a thickened edge (310) so as to avoid any overflow of flexible and / or viscoelastic material in the housing of the housing.

The means for fixing the fixed end (30) is of course not limiting. Provision may be made to replace the screws with a means of vibration welding when the elongate element is made of thermoplastic material compatible with welding with the material of the top of the ski for example. Thus, the internal surface of the end (30) is provided, before joining, of energy directors (302) which are a row of transverse ribs of thermoplastic material housed in a hollow (303) of shallow depth.

Of course, provision can be made to replace all of the interchangeable indexing parts with another indexing means, without going beyond the ambit of the invention. In particular, the indexing means may be constituted by a locking element adjustable in several different positions allowing the selective locking of the wafers.

FIG. 20 illustrates one such example of indexing means which fulfills the desired function. In this case, the means is a screw (8) comprising a threaded part (81) which cooperates in a complementary threaded bore (46) produced in the housing (4) and a smooth transverse projection (82) which cooperates with the lights of the damping pads, depending on the penetration depth of the screws. In this case, each support plate (50, 60) is traversed only by a light (54, 64).

Of course, the invention is not limited to the embodiments described and shown by way of examples, but it also includes all the technical equivalents and their combinations.

Claims (13)

Damping device for skiing, more particularly downhill skiing, comprising at least: - an elongate element for transmitting the bending forces (3), oriented longitudinally with respect to the ski and having a free end (31) capable of moving longitudinally during the bending stresses exerted on the ski, - A housing (4) rigidly connected to the ski provided with an opening (40) for the passage of the free end (31) of the elongated element (3) and an internal housing (41) allowing the free movement of said free end (31) in translation; characterized in that the device also comprises: - At least one damping plate (5, 6) guided in translation in said housing, comprising at least one layer of flexible and / or viscoelastic material (51, 61) in direct contact with the free end (31); - an indexing means (7) for selecting the number of plates (5, 6) in the locked position in translation in said housing (41), and the layer of which is flexible and / or viscoelastic material (51, 61) is shear stressed during movement of the free end (31) in the housing (41). Device according to claim 1, characterized in that it comprises an upper damping plate (5) whose layer of flexible and / or viscoelastic material (51) is in contact with the upper surface of the free end (31) of the elongate element (3) and a lower damping plate (6) whose layer of flexible and / or viscoelastic material (61) is in contact with the lower surface of the free end (31) of the element elongated (3). Device according to claim 1 or 2, characterized in that each damping plate (5, 6) consists of a rigid support plate (50, 60) extending longitudinally and guided in translation in said internal housing (41 ), and to which said layer of flexible and / or viscoelastic material (51, 61) adheres. Device according to claim 1, 2 or 3, characterized in that the indexing means (7) consists of a set of interchangeable indexing parts; each of which, relative to the others, locks a different number of plates in translation, between 0 and 2. Device according to claim 4, characterized in that each interchangeable indexing piece (7) comprises at least one determined projection (70) extending transversely with respect to the longitudinal direction of translation inside the housing (41) and the depth of penetration into the housing determines the number of locked pads. Device according to claim 5, characterized in that the rigid support plate of each plate (5, 6) is traversed in the transverse direction by at least one lumen (54, 64) of shape complementary to the shape of the projection of each indexing piece (7). Device according to claim 5, characterized in that each indexing piece (7) fits in an external housing (42) of the upper surface of the housing; said housing comprising at least one hole (44) communicating with the internal housing (41) of the housing to allow the passage of said projection (70) and its penetration into said internal housing (41). Device according to claim 7, characterized in that each indexing part (7) is traversed by a bore (702) in coaxial correspondence with a bore (412) of said external housing which passes through the housing (4) to allow the passage of 'A screw (402) for the joint fixing of the two elements (4, 7) on the ski. Device according to claim 1, 2 or 3, characterized in that the indexing means (7) consists of a locking element adjustable in several different positions making it possible to lock from zero to two plates in translation. Device according to claim 9, characterized in that the adjustable element comprises a projection (70) extending transversely relative to the longitudinal direction of translation inside the housing (41) and the depth of penetration of which in the housing internal is adjustable. Device according to claim 10, characterized in that the adjustment is made by means of a screw (8) comprising a threaded part (81) which cooperates in a complementary threaded bore (46) of the housing (4). Device according to any one of the preceding claims, characterized in that the opposite end (30) to said free end (31) comprises means for rigid connection with the ski of the screwing, vibration welding or other type. Ski provided with a device according to any one of the preceding claims, characterized in that said device (1) is positioned between the binding zone (2) and at least one of the ends of the ski.

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