EP1961463B1 - Improved snowshoe - Google Patents

Abstract

The snowshoe has a pivoting plate (10) pivotably mounted with respect to a peripheral frame of a sieve. The plate is articulated on the frame around a front transversal axle (12) in connection with a rear transversal axle (13) by an intermediate connection rod (11) so as to increase an angular displacement of the plate following a combined pivoting movement around the axles. The rear transversal axle is placed at the rear of the front transversal axle.

Description

Technical field of the invention

• un tamis ayant une surface portante composée d'une partie avant recourbée vers le haut en guise de spatule et se prolongeant vers l'arrière par un cadre périphérique pouvant être fermé à l'arrière ou ouvert en forme de U,
• une plaque de fixation montée pivotante par rapport au cadre du tamis autour d'un premier axe transversal avant,
• des moyens d'arrimage d'une chaussure sur ladite plaque de fixation.

The invention relates to a snowshoe comprising:

• a sieve having a bearing surface composed of a front portion curved upwardly as a spatula and extending rearwardly by a rearward or U-shaped openable peripheral frame,
• a fixing plate pivotally mounted relative to the frame of the screen around a first transverse axis before,
• securing means of a boot on said fixing plate.

State of the art

With the snowshoes of the prior art of the type described in the document US 6898874 and EP 882478 , the fixing plate is pivotally mounted relative to the sieve around a transverse axis disposed substantially at the head of the metatarsals. An opening, generally called window, is arranged through the screen to allow the passage of the forefoot when tilting the shoe forward during the stride. With each stride, when the user raises the racket in the rear position to bring it in the forward position, a portion of the forefoot protruding under the surface of the sieve rubs on the ground creating a troll effect during walking. The angular movement of the fixing plate of these known rackets remains limited.

At each reception of support on the ground the lower face of the fixing plate comes to rest directly and brutally on the upper face of the sieve. The course of the foot forward then requires a significant effort in the calf because of the relatively advanced positioning of the axis of articulation of the binding. However, it is not possible to shift this pivot axis backward because the forefoot would come too quickly in contact with the ground and it would be even more prominent under the support face of the sieve during the tilting of the shoe through the sieve window.

Object of the invention

The invention aims to remedy these drawbacks by proposing a snowshoe allowing a natural, progressive and cushioned foot during walking, and decreasing the resistance to travel to limit the effect of drag.

Another object is to propose a racket allowing a natural walk and without fatigue in cant, without having to incline transversely the ankle.

The racket according to the invention is characterized in that said first front axle is connected by an intermediate transmission link with a second transverse axis placed behind said first axis, so as to increase the forward angular deflection of the fixing plate relative to the screen following a pivoting movement in the same combined direction of said fixing plate around said second and first axes.

The central platform of the sieve, whose width is less than the width of the sieve, extends in the longitudinal direction of the racket from the rear end of the window through which the forefoot pivots when the step, to the rear end of the sieve when the peripheral frame is of the open type or close to the rear loop of the peripheral frame when the latter is of the closed type.

The underside of the central platform advantageously comprises prominent elements as cleats whose points are protruding from the lower edges of the sieve. The plane passing through the tips of said crampons, constitutes the support plane of the racket on hard ground, and is therefore at a level lower than that occupied by the general plane passing through the lower longitudinal edges of the sieve, which is considered as the support plane of the sieve on deep snow.

The central platform of the sieve may be integral with the peripheral frame of the sieve with which it forms a rigid assembly. According to one variant, the central platform and the frame of the sieve constitute two distinct subassemblies interconnected by elastically deformable means, and / or by rigid mechanical means or, on the contrary, having one or more degrees of freedom, such as, in particular, axes , ball joints, gimbals or connecting rods.

According to another feature of a preferred embodiment, the frame of the sieve can tilt laterally at a limited angle relative to the central platform. The frame of the sieve is then connected to the central platform by resiliently elastically deformable flexible means and / or by mechanical means comprising joints, including rods, ball joints, gimbals, or a shaft extending in the longitudinal direction. sieve.

The lateral tilting of the frame of the sieve can be carried out on both sides of a substantially horizontal neutral position and parallel to the central platform of the sieve, in which it is repositioned with respect to said central platform when the racket is supported on a snowy ground horizontal.

The return of the frame of the sieve to its neutral position can also be advantageously ensured automatically by elastic return means against which said frame of the sieve tilts laterally with respect to the central platform of the sieve when it is constrained by its support on inclined ground. The elastic means bring the frame of the sieve in its neutral position relative to the central platform as soon as the racket is no longer in contact with the ground.

The return means ensure the return to the upper position of the intermediate rod and the limitation upwards, by a stop or by any other equivalent means, of the angular displacement of said link around the transverse axis which connects it to the platform centrally or directly to the frame of the sieve. Indeed when a step is finished and the racket raises its foot to advance the racket by performing the next step, this restoring force associated with the limitation of the angular movement, immediately back the front part of the attachment upwards so that it is no longer in prominence under the underside of the spatula. The drag effect is thus limited.

When the racket is placed on the ground without being loaded, the first transverse axis before occupies a higher position, therefore further from the support plane of the racket on the snow than the second pivot axis. At the end of step support, the front transverse axis has moved sufficiently downwards to be at a lower position than the rear transverse axis.

According to another characteristic, although the fastening performs a relative pivoting movement relative to the frame of the screen around two transverse axes, only the second transverse axis is secured directly to the frame of the screen, the first transverse axis before being movable in the plane vertical and completely disengaged from the frame of the sieve with which it is not in contact.

In its rear part, the racket comprises a hold-up wedge, allowing, when it is in the active position, to immobilize in rotation the fixing plate by keeping it pressed against the central platform, or on the contrary to constitute a low abutment on which comes to rest the rear end of the fixing plate to limit the angular movement downwards of the fixing plate thus making it easier to walk in the strong climbs.

According to another characteristic, the racket comprises an elastically deformable element positioned sandwiched between the lower face of the fixing plate and the upper face of a support plate by constituting an energy storage device. The latter comprises a conical abutment cooperating progressively with the support plate, slidable in the axial direction.

Brief description of the drawings

• les figures 1 à 7 sont des coupes longitudinales verticales montrant les différentes positions caractéristiques du déroulement complet d'un pas avec une raquette à neige selon l'invention réalisée selon un mode de réalisation préférentiel dans lequel la fixation est reliée à la plate-forme centrale du tamis par l'intermédiaire d'une biellette de liaison ,
• la figure 8 est une coupe longitudinale verticale montrant un second mode de réalisation de la raquette selon l'invention dont la plateforme centrale est montée pivotante autour de l'axe transversal arrière de la biellette de liaison,
• les figures 9 à 10 sont des coupes longitudinales verticales montrant un troisième mode de réalisation d'une raquette selon l'invention dont la fixation est reliée au cadre du tamis par une biellette de liaison mais dont le tamis ne comporte pas de plate-forme centrale ,
• les figures 11 à 14 sont des coupes longitudinales verticales montrant un troisième mode de réalisation d'une raquette selon l'invention dont la plate-forme centrale est reliée au cadre du tamis, fermé à l'arrière, par un axe transversal de pivotement ,
• la figure 15 est une coupe longitudinale verticale montrant un quatrième mode de réalisation d'une raquette selon l'invention dont la plate-forme centrale est reliée au cadre du tamis, ouvert à l'arrière, par un axe transversal de pivotement ,
• la figure 16 est une représentation en vue de dessus de la raquette à neige représentée sur les vues 1 à 8 . Pour faciliter la compréhension du dessin , la fixation n'a pas été représentée sur cette vue ,
• les figures 17 à 19 sont des coupes longitudinales verticales montrant un mode de réalisation d'une raquette selon l'invention comportant un dispositif cale de montée-bloqueur particulier,
• les figures 20 à 22 sont des coupes longitudinales verticales montrant un mode de réalisation d'une raquette selon l'invention comportant un dispositif particulier d'absorption et de restitution d'énergie ,
• les figures 23 à 25 sont des coupes transversales verticales montrant différents modes de réalisation d'une raquette à neige selon l'invention dont le cadre du tamis peut s'incliner dans le sens transversal par rapport à la plate-forme centrale du tamis.

Other advantages and features will emerge more clearly from the following description of particular embodiments of the invention given by way of non-limiting example and represented in the accompanying drawings, in which:

• the Figures 1 to 7 are vertical longitudinal sections showing the different characteristic positions of the complete unfolding of a step with a snowshoe according to the invention carried out according to a preferred embodiment in which the binding is connected to the central platform of the sieve by the intermediate of a connecting rod,
• the figure 8 is a vertical longitudinal section showing a second embodiment of the racket according to the invention, the central platform is pivotally mounted around the rear transverse axis of the connecting rod,
• the Figures 9 to 10 are vertical longitudinal sections showing a third embodiment of a racket according to the invention, the attachment of which is connected to the frame of the sieve by a link rod but whose sieve does not have a central platform,
• the Figures 11 to 14 are vertical longitudinal sections showing a third embodiment of a racket according to the invention, the central platform of which is connected to the frame of the sieve, closed at the rear, by a transverse axis of pivoting,
• the figure 15 is a vertical longitudinal section showing a fourth embodiment of a racket according to the invention, the central platform of which is connected to the frame of the sieve, open at the rear, by a transverse axis of pivoting,
• Figure 16 is a top view of the snowshoe shown in views 1-8. To facilitate the understanding of the drawing, the fixation has not been represented on this view,
• the Figures 17 to 19 are vertical longitudinal sections showing an embodiment of a racket according to the invention comprising a particular wedge-up blocker device,
• the Figures 20 to 22 are vertical longitudinal sections showing an embodiment of a racket according to the invention comprising a particular device for absorbing and restoring energy,
• the Figures 23 to 25 are vertical cross sections showing different embodiments of a snowshoe according to the invention, the frame of the sieve can tilt in the transverse direction relative to the central platform of the sieve.

Description of particular embodiments

Prior to the following explanations, it is stipulated that the references of horizontality and verticality mentioned in this document are in relation to a racket resting by its bearing surface on a horizontal ground and that, moreover, the designated plan under the term mean vertical longitudinal plane or plane mean vertical, is the vertical plane passing through the middle tibia-fibula axis, said plane being moreover disposed substantially parallel to the axis of the walk along which the snowshoer moves. It is also specified that the concepts of exterior and interior are defined with respect to said mean longitudinal vertical plane, the inner side extending laterally from said plane towards the other racket, while the outer side s' extends laterally from the other side of the middle plane and in the opposite direction to the previous one. As for the notion of neutral position of the platform with respect to the sieve of the racket, it corresponds to the horizontal position occupied by said platform when the racket rests on a horizontal ground.

On the Figures 1 to 7 and on the figure 16 , the snowshoe 1 according to the invention comprises a sieve 2 consisting of a central platform 3 and a peripheral frame 4. The U-shaped peripheral frame 4 open towards the rear as shown in FIG. figure 8 , consists of two lateral arms 41 and 42 extending in the longitudinal direction of the racket connected by their front end to a front part raised upwards to serve as spatula 7. In the transverse direction of the racket, the two longitudinal arms 41 and 42 are interconnected by a front transverse beam 8 and a rear transverse beam 9.

The central platform 3 extends from the vicinity of the rear end of the window 70 arranged in the spatula 7, through which the forefoot pivots when walking, to the rear end of the sieve 2 .

The fixing of the racket is constituted by a pivoting plate 10 comprising means for securing the boot. The pivoting plate 10 is connected to the central platform 3 by a link rod 11 whose front end is hinged relative to said fixing plate 10 by a transverse front axle 12 while its rear end is articulated with respect to the platform central 3 or sieve frame by a transverse rear axle 13. The fixing plate thus pivots with respect to the screen frame around at least one transverse front axis and at least one transverse rear axis.
The connecting rod 11 has under its lower face before the protruding elements 110 to ensure a good anchoring in the snow uphill; these prominent elements 110 here have the shape of teeth oriented in a general direction extending from the rear upwards to the front downwards.

• une position inactive , désengagée, tel que le montrent les figures 1 à 5 , dans laquelle il laisse à la plaque 10 de la fixation la possibilité de se déplacer sur la totalité de son débattement angulaire .
• une première position active , engagée, en guise de bloqueur , représentée sur la figure 6, dans laquelle , après une rotation de 180° par rapport à la position qu'il occupait sur les figures 1 à 5 la partie antérieure 140 de sa base vient immobiliser en rotation la plaque 10 de la fixation qui reste plaquée contre la plateforme centrale 3 de telle sorte que le tamis 2 accompagne alors tous les mouvements de la chaussure pour permettre le franchissement de passages difficiles ou très escarpés.
• Une seconde position active, engagée, en guise de cale de montée, représentée sur la figure 7, dans laquelle il constitue une butée inférieure pour l'extrémité arrière de la plaque 10 de la fixation dont il limite ainsi le débattement angulaire vers le bas pour un plus grand confort dans les montées .

A rotary device 14 is mounted on the upper face of the rear part of the central platform 3. This device, rotatably mounted about a vertical axis, can occupy three characteristic positions:

• an inactive, disengaged position, as shown by Figures 1 to 5 , in which it leaves the plate 10 of the fixation the possibility of moving on all of its angular deflection.
• a first active position, engaged, as a blocker, represented on the figure 6 , in which, after a rotation of 180 ° with respect to the position it occupied on the Figures 1 to 5 the anterior portion 140 of its base immobilizes in rotation the plate 10 of the binding which remains pressed against the central platform 3 so that the sieve 2 then accompanies all movements of the shoe to allow crossing difficult or very steep passages .
• A second active position, engaged, as a climbing wedge, represented on the figure 7 , in which it constitutes a lower abutment for the rear end of the plate 10 of the binding which thus limits the angular deflection downwards for greater comfort in climbs.

As shown more particularly by Figures 2 to 4 one of the advantages of the two-pivot articulation of the attachment plate lies in the fact that the position of the rear transverse axis 13 much closer to the heel of the shoe than would be the single pivot axis of the shoe. a classic fixation,
allows, thanks to a reduced distance d, to decrease in substantial proportions the effort, according to the force F, that must provide the calf muscles to lift the heel of the shoe during the unwinding of the foot.
The first phase of tilting of the foot according to the angle ( alpha ) is therefore by pivoting the fixing plate 10 around the rear transverse axis 13 against the return force developed by return means, no visible in these drawings, consisting of a torsion spring disposed concentrically around the rear transverse axis 13 and tending to automatically return the connecting rod 11 in its upper position as shown in the Figures 1, 2 , and 5 .
When the connecting rod 11 has reached its low position and the front claws 110 which equip it come into contact with the ground, the fastening plate 10 continues its forward tilting movement by pivoting about the transverse axis before 12 to perform the angular deflection ( Beta ).

At the end of the unwinding phase of the foot, the plate 10 of the attachment has thus made an angular rotation of total value ( Gamma ) with respect to the central platform 3 of the sieve.
As shown in figure 5 when the user lifts the rear foot to advance one step, the connecting rod 11 is automatically returned to its upper position by the return means developing a return torque C1. The upward pivoting of the rod 11 to its high angular stop causes the front part of the foot and the fixing plate to be completely recessed with respect to the lower face of the spatula and with respect to the passing plane P1. by the lower longitudinal edges of the sieve. The racket can be advanced by sliding on the layer of snow without being affected by a drag effect as with the rackets of the prior art very disabled, they, by the prominence of the forefoot under the sieve.
It is also noted in these various figures that the plane P0 passing through the points of the crampons fixed under the sieve occupies a position lower than that of the plane P1 passing through the lower longitudinal edges of said sieve.

The figure 8 shows another embodiment in which the central platform 15 of the sieve is pivotally mounted relative to the frame of the sieve around a transverse axis 16 disposed at the front end of the said central platform 15. This transverse axis 16 also constitutes the axis of pivoting of the connecting rod 17 so that said axis 16 thus connects to the frame of the sieve both the fixing plate via the connecting rod 17 and the central platform 15. The central platform 15 can therefore pivot about the axis 16, according to the angle ( delta ) advantageously limited by high and low angular stops, to move from its high position shown in strong lines to its low position shown in dotted lines .

Returning means, (not shown) and consisting for example of a torsion spring disposed about the transverse axis 16, advantageously provide automatic return of the platform in its high position as soon as it is no longer loaded and they also offer the advantage of braking by damping the drawdown by pivoting downwardly about the axis 16 of the fastening plate assembly and central platform when the racket comes into contact with the ground.

On this figure 8 when the user takes a step in advancing his back racket, the central platform 15 then occupies the high position, represented in strong lines, and the tips of the rear crampons are found above the plane P1 passing through the edges lower longitudinal sieve. The racket can thus slide very freely on said longitudinal edges by providing minimal drag.

The Figures 9 and 10 show another embodiment in which the racket does not have a central platform so that the lower face of the entire portion of the fastening plate 18 located behind the transverse axis of pivoting 20 comes into direct contact with the layer of snow when said fixing plate is folded down.

As shown in figure 9 , the angular deflection downwardly of the fixing plate 18, advantageously limited by stops not shown, is calculated to be sufficient to allow the rear of the plate of the fastener 18 to pass below the passing plane P1 by the lower longitudinal edges of the sieve so that the heel of the shoe is lower than the front of the shoe which is advantageous downhill. The plate of the fastener 18 furthermore has on its rear part crampons 19 which are no longer protruding under the plane P1 as soon as the rear of said fixing plate 18 is raised and this to limit the effects of drag.

The Figures 11 to 14 show another embodiment in which the central platform 21 is hinged relative to the frame of the sieve by a transverse axis 22 disposed near its rear end while a second transverse axis 23 disposed in the vicinity of the front end of said central platform 21 serves as a pivot to the fixing plate 24 which thus performs a relative pivoting movement relative to the sieve of the racket around the two transverse axes 22 and 23.

The central platform comprises high and low stops limiting angular movement upward and downward and return means, not shown ensuring its automatic return to the high position when no longer loaded.

As shown by figure 11 when the racket bears on the ground, the fixing plate 24 and the central platform 21 occupy, with respect to the plane P1 passing through the longitudinal edges of the sieve, a position inclined in a direction extending from the front towards the top at the back down, so that the heel of the shoe is positioned lower than the front of the shoe.

During the course of the step, the tilting of the boot is performed firstly by rotation about the rear transverse axis 22 which brings the central platform 21 in abutment in its lower position as shown in FIG. figure 12 .
Tilt of the foot forward is then effected by rotation of the attachment plate 24 about the front transverse axis 23, as shown in FIG. figure 13 .

On the figure 14 , the central platform 21 is returned to its upper position by the biasing means, and the front of the plate of the fastener 24 is found above the plane P1 passing through the lower longitudinal edges of the sieve.

The figure 15 shows another embodiment in which the central platform 25, connected to the frame of the sieve by a transverse axis 27 disposed in its front portion, extends forwardly by a portion cantilevered at the front end of which is disposed a second transverse axis of pivoting 28 connecting said central platform to the plate of the attachment 26.

The underside of the central platform 25 advantageously comprises crampons arranged on the one hand at its front end, and secondly at its rear end. The hold-up device is mounted on the upper face of the rear part of said central platform 25.

The Figures 17 to 19 show a variant of the embodiment presented on the Figures 1 to 7 . The central platform 30 of the racket has in its rear part an opening 300 allowing the passage through the sieve of the cleat clamps 310 mounted under the lower face of the rear end of the plate of the fastener 31. Thus, when said fixing plate 31 is folded down against the upper face of the central platform 30, these spikes 310 come into prominence under the plane P1 passing through the lower longitudinal edges of the sieve. An inclined wall 301 disposed under the underside of the central platform and positioned in front of the opening 300, is inclined in a general direction extending from the front to the top, rearwardly downward to serve as a snow deflector by preventing snow rising through the opening 300 when the racket advances by sliding on the ground.

A climb-and-hold wedge device 32 disposed on the rear part of the central platform 30, comprises an element 320 that can slide axially in the direction of the racket to occupy either a retracted position towards the rear ( figure 17 ) an advanced position ( Figures 18 and 19 ).

In the disengaged position, the sliding element 320 is outside the area swept by the plate of the fastener 31, which can therefore move freely over its entire angular deflection.

On the figure 18 the sliding member 320 occupies the position engaged in blocking above the upper face of the plate of the attachment 30, which is kept pressed against the upper face of the central platform 30, and the studs 310 being prominent under the plane P1.

On the figure 19 , the sliding element 320 has been engaged in the climbing wedge position, and the crampons 310 of the plate of the fastener 31 come to bear on the upper face of said sliding element 320. The rear of the plate of the fastener 31 is found in raised position above its rear crampons 310.

The crampons 310 are no longer prominent when the plate is raised during the advancement of the foot, which greatly contributes to reducing the effect of drag. The height of the climb-and-hold device may be smaller than the prior systems. This results in a reduction in device volume, a reduction in weight, and easy integration directly into the sieve.

The Figures 20 to 22 show another embodiment of a snowshoe according to the invention comprising a device accumulating the energy during the downward folding of the fixing plate, and the restituant, with losses, in the form of a force pushing up Fp tending to push up the rear of said fixing plate 360.

The element accumulating and restoring this energy consists here of a progressive conical abutment 33 of elastically deformable rubber positioned between the axis of pivoting of the fixing plate 36 and the rear end of said fixing plate. This stop 33 is fixed under the lower face of the plate 36 of the binding and the device also comprises a support plate 350 sliding in the axial direction of the racket in solidarity with a raising block 35 acting as a wedge climb.

The Figures 20 and 21 show the operation of said device when the shim 35 and the bearing plate 350 associated with it occupy the advanced position, thus engaged. In this configuration, the plate of the fastener 36 first folds freely without encountering an opposing force until the conical abutment comes into contact with the bearing plate 350. This results in a pivoting movement towards the bottom of the fixing plate 36 which results in the progressive crushing of the stop 33 against an increasing reaction force stored in said stop 33. The pivoting movement towards the bottom of the shoe stops when the lower rear face of the plate of the fastener 36 bears on the booster pad 35 ( figure 20 ).

When the user then begins to lift his foot to engage the next step, as shown on the figure 21 the progressive abutment 33 releases the energy it contained by its compression by generating a thrust force Fp which facilitates the forward tilting of the attachment plate 33 and the boot that it supports, thereby facilitating the ascent of the climb in progress.

The figure 22 shows the configuration of the racket when the device accumulating the energy is deactivated. In this configuration, the booster 35 acting as a climbing wedge, and the support plate 350 associated therewith, occupy their retracted position. The support plate 350 is therefore no longer positioned on the path traveled by the conical abutment 33 during the pivoting of the fixing plate 36. Therefore, neither the abutment 33 nor the fixing plate 36 can meet any more support during their pivoting down. The plate of the fastener 36 can travel freely all of its angular travel until it comes into contact with the upper face of the sieve while the conical abutment is housed in a cavity 340 formed in said sieve.

The cavity in which the conical abutment is housed can be closed downwards or, conversely, open downwards as shown in FIG. figure 22 . It can then advantageously comprise a wall disposed under the underside of the screen and positioned in front of the opening 340, so inclined forwardly. It serves as a snow deflector by preventing the upwelling through the opening 340 when the racket advances by sliding on the ground.

The Figures 23 to 25 show in cross section different embodiments of a racket according to the invention, the sieve can tilt laterally P2 and P3 on either side of a neutral horizontal position along PI relative to the assembly consisting of the central platform of the sieve and the plate of the fastener.

It should be noted that during these inclinations, the points of the crampons integral with the central platform of the sieve remain permanently contained in the plane P0 which remains substantially horizontal.

The figure 23 shows a first embodiment in which the frame of the sieve comprises two lateral elements 41 and 42 joined together by a transverse beam 8, said frame being connected to the central platform of the sieve 38 supporting the fixing plate 37 by a flexible joint constituted a deformable element X between the branches which are interposed two blocks 50, 51 made of an elastically flexible deformable material such as rubber or a synthetic elastomer. The two blocks 50, 51 of triangular shape have sufficient elastic memory to ensure the automatic return of the sieve frame in the neutral position as soon as the racket is no longer supported on a sloping ground.

The figure 24 shows a second embodiment in which the pivoting in the lateral direction of the frame of the sieve relative to the central platform of the sieve 52 is effected by pivoting about an axis 53 arranged longitudinally substantially parallel to the longitudinal vertical plane Pvl of the racket . Springs 54, 55 disposed on either side of said pivot axis 53 ensure the automatic return of the sieve frame in the neutral position as soon as the racket is no longer supported on a sloping ground.

The figure 25 shows a third embodiment in which the sieve frame is connected to the central platform of the sieve by at least two links allowing a limited lateral tilting of said central platform on either side of its substantially horizontal neutral position. The lateral displacement of the sieve frame relative to the central platform of the sieve 56 is effected by pivoting rods 57,58 each having a first end connected by an axis to a longitudinal arm of the frame, while the second end is connected by another axis to said central platform 46.

According to another embodiment not shown, the central platform of the sieve is connected to the frame of the sieve by at least one universal joint or ball joint allowing on the one hand a limited lateral tilting of said central platform on either side of his position substantially horizontal neutral and secondly a tilting in the limited longitudinal direction of said central platform relative to said screen sieve frame.

Of course, the invention is not limited to the only modes shown and described by way of examples, but it also includes their combinations and their technical equivalents, within the limit of the following claims.

Claims (10)

1. A snowshoe comprising:

   - a deck (2) having a support surface composed of an upwardly-curved front part in the form of a spatula (7) and extended to the rear by a peripheral frame (4) able to be closed at the rear or open in a U-shape,

   - a fixing plate (10, 18) mounted swivelling with respect to the frame (4) of the deck (2) around a first front transverse spindle (12),

   - means for securing a shoe onto said fixing plate,

   characterized in that said first front spindle (12) is joined by an intermediate transmission link rod (11) to a second transverse spindle (13) placed to the rear of said first spindle so as to increase the frontward angular movement of the fixing plate with respect to the deck (2) following a combined pivoting movement in the same direction of said fixing plate around said second and first spindles (13, 12).
2. Snowshoe according to claim 1, characterized in that the frame (41, 42) of the deck is joined to a central platform (38) of the deck by elastically deformable means (39, 51, 52) allowing a substantially horizontal limited lateral rocking movement on each side of its neutral position to which it is automatically biased by elastic means (51, 52) when the snowshoe is no longer in contact with the ground.
3. Snowshoe according to claim 1, characterized in that the frame of the deck is joined to a central platform by a longitudinally arranged pivot-pin (53) allowing a limited lateral rocking movement of said frame of the deck on each side of its neutral position.
4. Snowshoe according to claim 1, characterized in that the frame of the deck is joined to a central platform of the deck by at least two auxiliary link rods (57, 58) allowing a limited lateral rocking movement of said central platform on each side of its horizontal neutral position.
5. Snowshoe according to any one of the foregoing claims 1 to 4, characterized in that a central platform of the deck is securedly attached to the peripheral frame of the deck to form a rigid assembly.
6. Snowshoe according to claim 1, characterized in that the transmission link rod (11) linking the first and second spindles (12, 13) comprises protuberant elements (110) on the bottom surface thereof designed to ensure gripping on hard snow.
7. Snowshoe according to any one of the foregoing claims 1 to 6, characterized in that the fixing plate (31) comprises protuberant elements (310) salient underneath the bottom surface of the deck when the rear of said swivelling plate (31) occupies a folded-down position, and that said snowshoe comprises a device (32) constituting a climbing bar having a bearing element (320), selectively retractable by translation or by rotation around a horizontal or vertical axis, on which at least one of said protuberant elements (310) presses when said bearing element (320) occupies an engaged position as climbing bar.
8. Snowshoe according to any one of the foregoing claims 1 to 7, characterized in that it comprises an elastically deformable element (33) sandwiched between the bottom surface of the fixing plate (36) and the top surface of a bearing plate (350).
9. Snowshoe according to claim 8, characterized in that the elastically deformable element (33) is formed by a conical stop collaborating progressively with the bearing plate (350) that is able to slide.
10. Snowshoe according to claim 9, characterized in that the bearing plate (350) is securedly attached to a raising wedge (35) playing the role of climbing bar.

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