FR2911789A1 - Snow racket for e.g. sportsman , has climbing bar including support piece articulated on shoe around axis for attaining inactive and active positions, and control unit allowing user to pass from inactive position to active position by bar - Google Patents

Abstract

The snow racket (1) has a shoe retaining unit permitting a shoe to rotate with respect to a deck (2) around transverse axes (X, X`). A climbing bar (9) limits rotation of a fixation type articulated plate (7) towards a base such that the plate is inclined towards the base and front, so that the shoe is in a horizontal position in case of rise. The bar includes a movable support piece (10) articulated on the shoe for attaining retractable inactive and active positions. A control unit (11) i.e. lever, allows a user to pass from the inactive position to the active position using the bar.

Description

The present invention relates to a

  snowshoe enhancement designed in particular to improve the comfort of walking 5 in the climbs. Snowshoes have been known for many years because they have been used for centuries by Scandinavians to move on snow. to this day, snowshoes were used for utilitarian or military purposes, 10 to allow alpine populations and troops to move on the snow for their movements necessitated by daily life. Currently, snowshoes are used by athletes who hike and walk, or even competitions. But the sportsmen, although practicing for their pleasure, are more and more demanding for the equipment they use and it is true that the products currently sold are not entirely satisfactory. The present snowshoes have many features intended to improve the user's comfort during the walk such as, for example, climbing wedges intended to facilitate the progression in climbs by placing the sole of the shoe in a substantially horizontal position that the latter is supported downward. Different approaches to climbing wedges are known, and in particular those described in the French patent applications published under the numbers 2,725,631, 2,771,301. However, these wedges present a great deal of inconvenience and in particular their lack of convenience when they are put into service. place and their retraction. The present invention intends to solve the disadvantages of known devices by proposing a particularly simple and reliable climbing wedge, and easy to put in drunk and retract and this without the user has to down or loosen.

  Thus, the snowshoe according to the invention, comprising retaining means of the boot which allow it to pivot upwards relative to the sieve of the racket around a transverse axis located substantially at the level of the zone before the boot, so that the user can lift his heel by pivoting from a normal low position, usual use position of the racket for walking on flat terrain, according to which the general plane of the lower surface of said shoe is substantially parallel to the surface of the ground, and which comprises means for limiting the pivoting downwards to define a low position in which the lower surface of the shoe is inclined downwards and forwards, said means being constituted by a pivoting support piece, articulated on the racket about a transverse axis, to take according to the invention, two stable positions, a position retracted inactive, and an active position, is characterized in that it comprises a control member biased by an elastic system, allowing the user to move from the inactive position retracted from the shim, to the active position. According to a complementary feature, the pivoting support piece and the control member constitute with their respective pivoting axis an assembly having a knee-type kinematics. According to another characteristic, to produce the toggle system, the pivoting support piece is hinged to a support about a transverse axis while the control member is articulated on the same support around another transverse axis located above the axis substantially in the vertical plane of the same axis. Note also that the control member comprises at one of its ends an actuating projection urged by the elastic system, intended to cooperate with a light formed on the corresponding side wall of the movable support piece, while the elastic system solicits this projection in the direction of the pivot axis of the moving part. According to the preferred embodiment, the control member is disposed laterally with respect to the movable support piece, while the elastic system is constituted for example by an elastic loop housed in the corresponding side of the moving part passes through its inner periphery around four attachment points integral with said movable part, while it passes through its outer periphery around the actuating projection. According to another complementary feature, the control member is a lever of the second kind, namely with a first arm or arm on one side of the axis comprising the actuating projection, and a second arm or arm the other side of the pivot axis, while it comprises on both sides a hollow profile, allowing the user to use the tip of his stick to pass the movable support member from its retracted position to its active position and vice versa, and this by simply pushing down.

  Other features and advantages of the invention will become apparent from the description which follows with reference to the accompanying drawings which are given by way of non-limiting examples. 1 illustrates in top view the racket with its plate in its low position normal use.

  2 illustrates in a perspective view the racket with its plate in its normal low position of use. Figure 3 is a side view of the racket with its plate in its normal low position of use. Figure 4 is a side view of the racket with its plate in its position in which the shim is in the active position. Figures 5, 6, 7 are side views showing the climbing wedge in three positions, the inactive position (Figure 5), the intermediate position (Figure 7), the active position (Figure 6) according to the invention, the racket snow, with the general reference 30 (1) is constituted by a frame (3) which delimits an inner surface or sieve (2) which forms the bearing surface of the racket. This sieve (2) may advantageously be in the form of a rigid perforated plate which has under its underside a set of attachment walls for reinforcing the holding of the snowshoe on the hard snow. However, it could be otherwise and the sieve could be formed by a web or non-perforated plate portions, for example, without departing from the scope of the invention. The snowshoe (1) of the invention comprises means for retaining the boot for securing the shoe to the racket. These retaining means have a configuration that allows the boot of the user to pivot relative to the sieve (2) of the racket about a transverse axis (X, X ') located substantially at the zone before the shoe so that the user can lift his heel by pivoting upwards according to F during its progression. These retaining means are advantageously constituted by an articulated plate type attachment (7), as illustrated, said plate (7) carrying rear retaining means (8a) of the boot and front retaining means (8b) . The pivoting of the retaining plate (7) of the boot with respect to the racket (1) is advantageously carried out between a normal low position (A), as illustrated in FIGS. 1, 2 and 3, position of use. racket for walking on flat terrain, wherein the general plane of the lower surface (7a) of hinged plate (7) is substantially parallel to the general plane of the ground surface, and a high position (B), according to wherein the heel of the shoe is lifted by pivoting upwards along F of the plate (7) about the transverse axis (X, X '). According to the invention, the racket comprises means allowing the retaining plate (7) to bear downwards in an inclined position (C) as illustrated in FIG. 4.

  Thus, the racket according to the invention comprises means for limiting the pivoting of the plate downwards, so that said plate is inclined downwards and forwards, so that in case of progression uphill the shoe is in a substantially horizontal position, more comfortable position for the user.

  This means of limiting the pivoting downwards, is provided by a stop member and movable support (9) commonly called climbing wedge. This climbing wedge (9) is constituted by a pivoting part (10) articulated on the racket about a transverse axis (Y, Y '), to take according to the invention, two stable positions, an inactive retracted position such as illustrated in Figures 1, 2, 3 and 5, and an active position as illustrated in Figures 4 and 6. In the retracted inactive position (Figures 1, 2, 3 and 5) the plate can pivot downwards the general plane of the lower surface (7a) of hinged plate (7) is substantially parallel to the general plane of the ground surface. This position is the one used for progression on flat terrain. In the active position as illustrated in Figures 4 and 6, the pivoting piece (10) is in the path of the rear portion of the plate. Thus this rear part comes in the low position to be placed in support on the pivoting support piece. Thus during a progression in a slope the general plane of the lower surface (7a) of articulated plate (7) is inclined relative to the general plane of support of the racket but substantially parallel to the horizontal, which makes the uphill climb more comfortable. According to the snowshoe of the invention, the means for limiting the pivoting are of adjustable type and allow the user to move from the inactive retracted position of the climbing wedge to the active position, thanks to an organ control (11). This control member (11) is constituted by a pivoting lever which can be actuated by the user by action of his stick. This control member (11) is thus disposed laterally with respect to the movable member outside the area of the path of the plate.

  As we have seen previously, the pivoting support piece (10), articulated on the racket about a transverse axis (Y, Y '), can take two stable positions, an inactive retracted position as illustrated in FIGS. FIGS. 1, 2, 3 and 5, and an active position as illustrated in FIGS. 4 and 6. For this purpose, a toggle-type kinematics comprising an elastic system (12) are provided. The elastic system is for example constituted by an elastic loop as illustrated, for example. To produce the toggle system, the pivoting support piece (10) is articulated on a support (13) around a transverse axis (Y, Y ') while the control member is articulated on the same support ( 13) about another transverse axis (Z, Z ') located above the axis (X, X') substantially in the vertical plane of this same axis. The control member (11) comprises at one of its ends an actuating projection (14) intended to cooperate with a slot (15) formed on the corresponding side wall (16) of the movable support piece ( 10), while the resilient system urges this projection towards the pivot axis (X, X ') of the moving part (10). The elastic loop (12) housed in the corresponding side of the moving part (10) passes through its inner periphery around four attachment points (17a, 17b, 17c, 17d) integral with said moving part, while it passes by its outer periphery around the actuating projection (14). With such a design, in the retracted position (see Figure 5) the force (F1) urging the actuating projection to a direction which passes under the axis of pivoting (Z, Z ') of the body d actuation. Thus the retracted position is stable.

  To move from the retracted position to the active position the user only has to urge the actuating member according to (T) and thus force the movable part to rotate according to (R1) to move towards the equilibrium position as shown in Figure 7, then to the active position (Figure 6). In this position, the force (F2) urging the actuating projection to a direction which passes under the axis of pivoting (Z, Z ') of the actuating member. Thus the active position is stable, as is the retracted position.

  It is understood that the control member (11) is a lever of the second kind, namely with a first arm or actuating arm (17a) on one side of the axis (Z, Z ') comprising the projection actuator (14), and a second arm or control arm (17b) extending on the other side of the pivot axis (Z, Z '). Note also that the control arm (17b) comprises on both sides a recessed profile (17d, 17'd) allowing the user to use the tip of his stick to pass the climbing wedge of its retracted position to its active position and vice versa, and this simply by pushing (T) downwards.

  According to the preferred embodiment, the climbing wedge has the shape of a "U" -shaped yoke whose sides have a triangular shape and whose ends are pivotally mounted on the support piece (13). Of course, the invention is not limited to the embodiments described and shown by way of example, but it also includes all technical equivalents as well as combinations thereof. Thus the climbing wedge according to the invention can be used in the case of a plate-type fastening, and in this case it is the back of the plate which is supported downwards on this wedge, but also in the case where it is the heel of the shoe itself that would be in direct support. Such an arrangement could be for example that described in the French patent application N 0107213, according to which the shoe is retained by its sole through a transverse pivot axis. Furthermore one could also have a control member (11) which would not have a second control arm (17b) without departing from the scope of the invention. In this case the user would move manually by direct action on the movable support piece (10) to move it from one position to another. It is also true that any type of elastic system (12) could be used to actuate the device, such as a tension or compression spring.

Claims (8)

  1. A snowshoe (1) comprising means for retaining the boot which allow it to pivot upwards relative to the sieve (2) of the racket around a transverse axis (X, X ') situated substantially at the level of the zone before the boot, and this, so that the user can lift his heel by pivoting from a normal low position (A), usual use position of the racket for walking on flat terrain, according to which the general plane of the lower surface of said shoe is substantially parallel to the surface of the ground, and which comprises means for limiting the pivoting downwards to define a low position (C) according to which the bottom surface of the shoe is is inclined downwards and forwards, said means being constituted by a pivoting support piece (10) articulated on the racket about a transverse axis (Y, Y '), to take according to the invention, two stable positions, one e inactive retracted position, and an active position, characterized in that it comprises a control member (11) biased by an elastic system (12), allowing the user to move from the inactive retracted position of the climbing wedge at the active position.   2. Snowshoe (1) according to claim 1, characterized in that the pivoting support piece (10) and the control member (11) constitutes an assembly having a knee-type kinematics.   3. Snowshoe (1) according to claim 2, characterized in that to achieve the toggle system the pivoting support piece (10) is articulated on a support (13) about a transverse axis (Y, Y ') while the control member is articulated on the same support (13) around another transverse axis (Z, Z') located above the axis (X, X ') substantially in the vertical plane of this same axis.   4. Snowshoe (1) according to claim 3, characterized in that the control member (11) comprises at one of its ends an actuating projection (14) intended to cooperate with a light (15). 8réalisée on the corresponding side wall (16) of the movable support piece (10), while the resilient system biases this projection in the direction of the pivot axis (X, X ') of the movable piece (10).   5. Snowshoe (1) according to the preceding claim, characterized in that the control member (11) is arranged laterally with respect to the movable support piece (10).   6. Snowshoe (1) according to the preceding claim, characterized in that the elastic system is for example constituted by an elastic loop housed in the corresponding side of the movable part 10 (10) passes through its inner periphery around four points hooking (18a, 18b, 18c, 18d) integral with said movable piece, while it passes through its outer periphery around the actuating projection (14).   7. Snowshoe according to the preceding claim, characterized in that the control member (11) is a lever of the second type, namely with a first arm or actuating arm (17a) on one side of the axis (Z, Z ') comprising the actuating projection (14), and a second arm or control arm (17b) extending on the other side of the pivot axis (Z, Z').   8. Snowshoe according to the preceding claim, characterized in that the control arm (17b) comprises on either side a hollow profile (17d, 17'd), allowing the user to use the tip of his stick to move the movable support member (10) from its retracted position to its active position and vice versa, and this simply by pushing (T) downwards. 25