FR2909566A1 - Snowshoe, has climbing bar provided with activation unit for pivoting climbing bar around posterior transverse axis from one of active or inactive position to other position by applying thrust or traction force by user with baton - Google Patents

Abstract

The snowshoe (1) has a shoe supporting plate (3) pivotally mounted inside a framework (2) along an anterior transversal rotation axis (16) around a plane unit (P). A movable climbing bar (5) is moved between an inactive position and an active position by pivoting along the transverse axis, where the climbing bar is mounted at rear of the plate above the plane unit. The climbing bar is provided with an activation unit for pivoting the climbing bar around a posterior transverse axis from one of the positions to the other position by applying thrust or traction force by a user with a baton.

Description

The present invention relates to the invention of the invention.

  a snowshoe which is equipped with a wedge, known as a climbing wedge, which can be actuated by the user when approaching a steep sector, said wedge making it possible to compensate at least in part for the gradient of the slope at the level of the support plate the shoe of the user. A snowshoe is for walking on snow. It is a sort of oversized sole that prevents the user from sinking into the snow. In a now conventional manner, a snowshoe comprises a frame and a plate intended to support the user's shoe, said plate being pivotally mounted inside the frame along an anterior transverse axis, that is to say an axis. lying towards the front of the frame. The fact that the shoe is mounted on a turntable greatly facilitates the unwinding of the foot during walking since in this case the frame of the racket is constantly at least partially in contact with the snow while the plate can follow the movement natural foot when walking. When walking on a steep sector, the movement of the foot must be increased compared to that practiced on flat ground, so as to compensate for the slope of the slope. This requires extra effort on the part of the user. To overcome this drawback, it has already been proposed to implement on the snowshoe a climbing wedge that is to say a wedge on which comes to bear the shoe support plate and which reduces accordingly the angular displacement of platinum when walking. Such a climbing wedge is provided movable between an inactive position in which it is not in contact with the plate and an active position in which it maintains the rear of the plate above the average plane P of the racket, c that is to say, the plane in which the plate is when the racket is on flat ground. In document FR.2.725.631, the climbing wedge consists of a one-piece body which is pivotally mounted about an axis perpendicular to the upper face of the racket and which comprises a radially protruding peripheral zone. In the inactive position of the climbing wedge, the radially prominent peripheral zone is turned towards the rear of the racket frame, not being in contact with the plate. To move to the active position, the user must manually rotate the one-piece body of the shim 180, after lifting the plate, so that the radially prominent peripheral zone is disposed under the rear end of the plate. It is therefore necessary that the user 5 on the one hand maintains the plate height and on the other hand ensures the pivoting of the shim, after possibly having unlocked it from its inactive position. This double manipulation imposed on the user is a major disadvantage for this hold. In document FR.2.760.375, the climbing wedge is a S-shaped piece whose proximal end is pivotally mounted on a transverse posterior axis, in elevation relative to the mean plane of the racket, on the upper face. of it. The shape of the S-piece is determined so that, in its inactive position, said piece has its distal bent portion which bears on the upper face of the racket, behind the pivot axis, while in its active position, said part having rotated forward of 180, it is its distal end which rests on the upper face of the racket while its distal bent portion is disposed under the plate. It is the distal portion between the end and the bent portion which acts as a wedge and which defines the angular offset compensated by said wedge for the plate. In addition this S-piece 20 is movable in a longitudinal translation to perform other functions than climbing wedge. All movements of this part are performed manually by the user. Thus, the two climbing wedges known above from the documents FR.2.725.631 and 2.630.375 necessarily require the user to remove his gloves and manually perform the operations necessary for the passage of the shim from the inactive position to the active position and vice versa. Moreover, in these documents, the shim is always projecting above the upper face of the racket, even in the inactive position, which increases its overall dimensions, and can be a disadvantage for the storage of the rack. racket. The object of the present invention is to provide a snowshoe equipped with a climbing wedge that overcomes all or part of the aforementioned drawbacks.

This is a snowshoe which comprises in a manner known from document FR.2.760.374: a) a frame, b) a plate, shoe support, pivotally mounted inside the frame 5 according to an anterior transverse axis, about an average plane P, c) a pivotally mounted shim on a posterior transverse axis between a first inactive position and a second active position in which the shim holds the rear of the platen above the middle plane P.

Typically, according to the present invention, the shim is provided with actuating means, able to rotate said shim about the posterior transverse axis from one position to the other by simple application of a force thrust or traction, in particular applied by the user with the help of his stick. Thus, the user no longer needs to remove the gloves, bend and perform manual operations to move the shim from one position to another. It suffices to apply on the actuating means a thrust or traction force to obtain the pivoting of the rear transverse axis and thus the passage of the shim from one position to another. Racquet users always move with the help of two sticks, 20 of which the lower end, terminated by a tip, has a washer intended to limit the penetration of the stick in the snow. The pulling force is obtained using the washer, while the thrust force can be obtained using either the tip or the washer of the stick. According to an alternative embodiment, the shim is a wedging piece having generally the shape of an inverted U. The posterior transverse axis passes to the ends of the lateral uprights of the U while the outer face of the base of the U acts as a support base for holding the plate in the active position. According to this arrangement, the wedging piece is retracted under the plate when it is in the inactive position.

In one embodiment of this variant, the actuating means comprise at least one lateral lever arm whose first end is connected to the rear transverse axis and whose second end comprises a first application zone of the pushing or pulling force for the passage of the shim from the inactive position to the active position. Advantageously, in this embodiment, the lever arm constitutes a bent extension of a lateral upright of the U-shaped wedging piece.

Preferably, said lever arm makes with the lateral upright an angle of the order of 90 to 120. In the variant in which the wedge piece has generally the shape of an inverted U, according to one embodiment, the actuating means comprise a second thrust application zone, which is arranged on the wedging piece 10 at the base of support. It may be in particular a hollow portion formed in the base of support. This recessed portion is configured to receive the tip of the stick, the user being able to exert a thrust force to pivot the chock piece about the second posterior transverse axis from its active position to its inactive position.

According to an alternative embodiment, the snowshoe comprises means for limiting the angular pivoting of the climbing wedge about the posterior transverse axis between the active position and the inactive position. For example the limiting means comprise at least two positioning stops of the wedging piece, fixed on the frame, the first stop 20 corresponding to the inactive position and the second stop to the active position. In this case, the first stop may limit the pivoting of a lateral amount of the chocking piece and the second stop may limit the pivoting of a lateral lever arm. Advantageously, in the variant according to which the wedging piece generally has an inverted U shape with lateral lever arm, preferably the racket comprises two lateral lever arms, which are integral with the wedging piece, in particular formed in a plastic material, for example injected. The presence of the two lateral lever arms allows appropriate use by any type of user, be it right-handed or left-handed, without having to contort to access, with the end of his stick, the arm lateral lever. According to an alternative embodiment, the body of the racket comprises a support tongue which is fixed on a spacer below the front transverse axis and which extends rearward of said axis under the plate so that that the shim abuts on the end of this tongue in the inactive position. The present invention will be better understood on reading the description which will be made of exemplary embodiments of a snowshoe equipped with a climbing wedge 5 illustrated by the appended drawing in which: FIGS. 1 and 2 are partial schematic representations in perspective, rear side view, of a snowshoe whose deck is equipped with an inactive position shim (FIG. 1) and in the active position (FIG. 2) and FIG. partial schematic representation in perspective, in a longitudinal section of an embodiment of a snowshoe whose climbing wedge is supported by a support tongue in the inactive position. The present invention relates to a snowshoe which consists of a frame 2 inside which is pivotally mounted a plate 3, intended to support the shoe or at least the front part of the shoe of the user. In the exemplary embodiment which is illustrated, at least the body 2 of the racket is made of a plastic material, which makes it possible to propose a lightweight article having good mechanical strength and not being liable to degrade. because of the conditions of use of such a racket. The frame 2 has a recessed central portion delimited laterally by two longitudinal members 14. It is between these two longitudinal members 14 that the plate 3 is arranged, designed to support at least the front part of the user's boot. This plate 3 is pivotally mounted along the transverse axis of rotation 16 extending between the two longitudinal members 14. In such a way as to stiffen the frame 2 at this axis 16 which is made to withstand significant forces during the rotation. the use of the racket, there is provided a spacer 17 connecting the two side members 14, under the plate 3 at the level of said front axle 16. In the example illustrated, the plate 3 is below the level of the axis anterior rotation 16, being supported by a flat part 18 whose two ends 18a are raised to be fixed, according to the axis of rotation 16 on the inner face of the longitudinal members 14. The plate 3 is provided at its front end and at its rear end spikes 19 which, penetrating the snow, prevent the sliding back of the racket when walking, especially in climbs. In the normal position, the upper face of the plate 3 is in an average plane P, which plane is defined when the racket is on a perfectly flat and horizontal floor. The snowshoe 1 is equipped with a climbing wedge 5 which is movable, by pivoting, between an inactive position in which it is located under the plate 3 (FIG. 1) and an active position in which it holds the rear. 3a of the plate 3 above the average plane P (Figure 2). In this active position, the plate 3 forms an angle with the average plane, this angle can be 10 to 25. The shim 5 is pivotally mounted inside the frame 2 along a rear transverse axis 20 which extends between the two longitudinal members 14. The snowshoe 1 is equipped with actuating means of the shim 5 , which means are able to rotate the rear transverse axis 20 of the active position to the inactive position and vice versa when a thrust or traction force is applied thereto, the user being able to apply this force using his stick, either directly with the tip or possibly with the washer. Thus the passage of the climbing wedge from one position to another no longer requires manual intervention on the part of the user. In the exemplary embodiment shown, the shim 5 is a wedging piece 7 having generally the shape of an inverted U, with a base 8 and two lateral uprights 9. This is the outer face of the base 8 of the U which serves as support base 8a for holding the plate 3 in the active position. The posterior transverse axis 20 passes through the ends 9a of the lateral uprights 9 of the wedging piece 7, opposite the support base 8a. It would of course have been possible to adopt other configurations for the wedging piece 30, for example a rectangular solid plate, but this would have increased the weight of this piece and therefore the racket. The means allowing the user to actuate the pivoting of the climbing wedge comprise, in the illustrated example, at least one lateral lever arm 2909566 7 whose first end 10a is connected to one of the lateral uprights 9 of the wedging piece 7 and whose second end 10b has a first application zone 11, zone in which the user will apply the pushing or pulling force for the passage of the shim 5 from the inactive position to the active position. In practice the lever arm 10 is an elbow extension of the lateral amount 9 of the wedging piece 7, with an angle R of the order of 90 to 120. With reference to FIG. 1, in which the shim 5 is shown in the inactive position, the lever arm 10 protrudes slightly above the frame 2 between the plate 3 and the spar 14, with a rear inclination which is for example of the order of 30 relative to the perpendicular to the average plane P. To move the climbing wedge 5 to the active position, it is sufficient for the user to apply the tip of his stick on the zone 11 and to exert a pushing force from the top to the bottom so that the lever arm pivots about the rear transverse axis 20 and correlatively causes, in its pivoting, that of the wedge piece 7. During this pivoting , the support base 8a of the wedging piece 7 comes into progressive contact with the lower face of the plate 3 and raises the rear end 3a thereof until the pivoting of the lever arm 10 is finished .

The end of this pivoting can intervene thanks to the implementation of end stops. In the example illustrated in Figures 1 and 2, these stops are constituted by the rear tips 19 of the plate 3 which prevent the further movement of the base 8 of the wedging piece 7. Other types of stop can of course be provided, for example a lateral abutment formed on the inner face of the spar 14 for the lever arm 10. For the transition from the active position (Figure 2) to the inactive position (Figure 1), the snowshoe 1 comprises other actuating means, for example a second application zone 12, arranged on the wedging piece 7, for example a recessed portion 13 formed in the support base 8.

In the active position, as illustrated in FIG. 2, the wedging piece 7 is slightly inclined forwardly at an angle complementary to the angle of inclination of the plate 3 with respect to the average plane P. It is this arrangement which provides the best stability to the climbing wedge 5 since, in this case, the force exerted by the user's weight on the climbing wedge is directed directly onto the rear transverse axis 20. For the passage in the inactive position, the user can place the tip of his stick in the recessed portion 13, formed in the base 8, and exert a vertical thrust or oblique from the top to the bottom. Due to the forward inclination of the wedging piece 7, this thrust will cause said piece 7 to pivot about the rear transverse axis 20 and the return of the shim 5 to the inactive position. The recessed application zones are more particularly intended for the exercise of a thrust force using the tip of the stick. This, however, is not exclusive of the present invention. The passage of the shim 5 from one position to another can be obtained by exerting a traction force with the help of the washer of the stick. For example, in the example illustrated in FIG. 2, it suffices for the user to pass the washer of the stick under the lever arm 10, pulling said stick upwards in order to lift the lever arm 10, which causes the return of the lever. the wedging piece 7 in its initial inactive position. Optionally one or more end stops may also be provided for the upstand 5 in the inactive position, for example a positioning stop disposed on the inner face of a spar, prohibiting the base of support to descend under the medium plane P.

In the exemplary embodiment shown in FIG. 3, there is no positioning stop per se for the inactive position shim. By cons there is provided, below the plate 3, a tongue 30 which extends cantilevered rearwardly of the spacer 17 spacer extending transversely between the two longitudinal members 14 This tongue 30 is made in one piece with the spacer, in a plastic material. The wedging piece 7, in the inactive position, is interposed between the tongue 30 and the plate 3. During walking, depending on the state of the ground, the rear part of the plate can be brought to move under the middle plane. P, which tends to push the base 8 of the wedging piece 7 and 30 also the tongue 30 and which induces a certain deformation by deflection of the tongue 30. The presence of this tongue 30 makes it possible to maintain at a certain height the piece 7 while allowing the depression of the rear part 2909566 9 of the plate 3 and while preserving the wedging piece 7 possible aggression during walking, for example shocks with prominent pebbles that may occur during the progression of the racket.

Claims (11)

  1. Snowshoe comprising: a) a frame (2), b) a plate (3), shoe support, pivotally mounted inside the frame along an anterior transverse axis (16), around an average plane P, c) a pivotally movable shim on a posterior transverse axis between a first inactive position and a second active position in which the shim holds the rear of the plate above the average plane P, characterized in that that the shim (5) is provided with actuating means, able to rotate the shim around the rear transverse axis (20) from one position to the other by simple application of a force of push or pull, especially applied by the user using his stick.   2. Racket according to claim 1 characterized in that the wedge (5) is a wedging piece (7) having generally the shape of an inverted U, in that the transverse rear axis (20) passes to the ends (9a) of the lateral uprights (9) of the U while the outer face of the base (8) of the U acts as a support base (8a) for holding the plate (3) in the active position.   3. Racket according to one of claims 1 or 2 characterized in that the actuating means comprise at least one lateral lever arm (10), a first end (10a) is connected to the rear transverse axis (20). and whose second end (10b) comprises a first application zone (11) of the pushing or pulling force for the passage of the rise wedge (5) from the inactive position to the active position.   4. Racket according to claims 2 and 3 characterized in that the lever arm (10) is a bent extension of a lateral amount (9) of the U-shaped wedging piece (7), preferably said arm of lever (10) forming with the lateral post (9) an angle of the order of 90 to 120.   5. Racket according to one of claims 2 to 4 characterized in that the actuating means comprise a second application zone of the thrust 2909566 11, which is arranged on the wedging piece at the base of support .   6. Racket according to claim 5 characterized in that the second zone of application of the thrust is a recessed portion formed in the base 5 support.   7. Racket according to one of claims 1 to 6 characterized in that it comprises means for limiting the angular pivoting of the climbing wedge around the rear transverse axis (20) between the active position and the inactive position. 10   8. Racket according to claim 7 characterized in that the limiting means comprise at least two positioning stops of the wedging piece, fixed on the frame, the first stop corresponding to the inactive position and the second stop to the active position.   9. Racket according to claim 8, characterized in that an abutment limits the pivoting of a lateral upright (9) of the wedge piece (7) and a stop limits the pivoting of a lateral lever arm (10). .   10. Racket according to claims 2 to 9 characterized in that it comprises two lateral lever arms (10), which are integral with the wedging piece (7), in particular formed of a plastic material for example 20 injected.   11. Racket according to one of claims 1 to 10 characterized in that the body (2) comprises a support tongue (30) which is fixed on a spacer (17) below the front transverse axis (16). ) and which extends rearwardly of said axis under the plate (3) so that the shim (5) 25 abuts on the end (30a) of this tongue (30) in the inactive position.