Snowboard binding provided with a boot stop in a bottom part of a spoiler movable with respect to a base around a rotational axis

Abstract

A snowboard binding with a base, a bearing shell movable about a first rotary pin supported by the base, and a pedal for controlling the bearing shell from an open position to a closed position, the bearing shell including a shell bottom and two shell sides supporting the pedal. The first rotary pin is supported by the bearing shell to form a boot stop in the shell bottom in any position of the bearing shell lying between an open position and the closed position. The shell bottom can support a bearing and the base, a pin housed in the bearing to form a hinge extending along the axis of rotation of the first rotary pin. The pedal can move relative to the shell sides about a second axis of rotation and be supported by two arms.

Claims

1. A snowboard binding, comprising: a base longitudinally extending along a rear entry direction, a spoiler which rotates around an axis of rotation held by the base, a pedal and a strap which controls the spoiler for closing and opening respectively between an open position and a closed position, in which the spoiler comprises a concave shell base and two shell sides, the pedal rotates with respect to the two shell sides and the strap is bound to the pedal or the spoiler, characterized in that the concave shell base or the base comprises a bearing hinged around the axis of rotation and wherein the axis of rotation extends outside of the shell base concavity, so that the bearing serves as a transversal boot stop with respect to the longitudinal rear entry direction, in any position of the spoiler during closing or opening, between the open position and the closed position.

2. A snowboard binding according to claim 1, wherein the concave shell base comprises an opening in front of the bearing.

3. A snowboard binding according to claim 2, wherein the bearing comprises a roller.

4. A snowboard binding according to claim 2, wherein the bearing or the roller is provided with an outer surface determined by a concave generatrix.

5. A snowboard binding according to claim 1, wherein the pedal is held by two arms and wherein two connecting rods are hinged to the arms and to the base to guide the arms with respect to the base.

6. A snowboard binding according to claim 5, wherein the arms which hold the pedal are hinged to the base by an oblong or curvilinear guide and a pin inserted in the guide, one of these two elements being part of the arms while the other is part of the base.

7. A snowboard binding according to claim 5, further comprising a second strap which is bound to the arms which hold the pedal in such a way as to be driven in a tightening position and a loosening position which are respectively determined by a forward position of the arms when the spoiler is in the closed position and a backward position of the arms when the spoiler is in the open position.

8. A snowboard binding according to claim 1, further comprising a lever which is hinged either to the spoiler or to the base, a return means counteracting the rotation of the lever and a retaining means which is respectively fixed to the base or the spoiler, said lever and retaining means being provided with locking means for blocking the spoiler in the closed position.

Description

(1) Other advantages of the invention are discussed below in reference to various embodiments illustrated by the drawings.

(2) FIG. 1 shows a side view of a snowboard binding according to a first embodiment of the invention, in an initial open position.

(3) FIG. 2 shows the binding of FIG. 1 in an intermediate open position.

(4) FIG. 3 shows the binding of FIG. 1, in a closed position.

(5) FIG. 4 shows a side view of a snowboard binding according to a second embodiment of the invention, in an open position.

(6) FIG. 5 shows a perspective view of a snowboard binding according to a third embodiment of the invention, in an open position.

(7) FIG. 6 shows a perspective view of a snowboard binding according to a fourth embodiment of the invention, in an open position.

(8) FIG. 7 shows a perspective view of a snowboard binding according to a fifth embodiment of the invention, in a closed position.

(9) FIG. 8 shows a perspective view of a snowboard binding according to a sixth embodiment of the invention, in an open position.

(10) FIG. 9 show an enlargement of FIG. 8.

(11) FIG. 10 shows a perspective view of a spoiler according to a first embodiment of the invention.

(12) FIG. 11 shows a side view of the spoiler shown by FIG. 10.

(13) FIG. 12 shows a perspective view of a spoiler according to a second embodiment of the invention.

(14) FIG. 13 shows a rear view of the spoiler shown by FIG. 10 or 12 in a closed position and a base to which the spoiler is hinged.

(15) The invention now is described with the help of the various embodiments mentioned above. An element common to these modes is designated by the same reference.

(16) A snowboard binding comprises, according to either of the various embodiments, a base 1, a spoiler 3 and a pedal 5.

(17) The base 1 is intended to be fixed to a snowboard (not shown) and comprises a front part 7, that receives the toe of the user's snow boot 2 and a rear part 9, integral with the front part or not, which holds a first axis of rotation A1. A rotatable spoiler 3 pivots relative to the base 1 about this first axis of rotation A1, from an open position to a closed position. A rotatable pedal 5 pivots relative to the spoiler 3 around a second axis of rotation A2, in order to control it from an initial or intermediate open position to the closed position.

(18) The spoiler 3 comprises, FIGS. 1 to 3, a concave shell base 13 and two shell sides 12 which hold the second axis of rotation A2. The shell base 13 preferably has a concave shape for receiving the heel of the boot 2 of the user.

(19) The initial or intermediate open position and the closed position of the spoiler 3 are defined by angular values about the axis of rotation A1. The angular value of the open position is greater than the angular value of the closed one, considering the base 1 as a common reference of the two positions.

(20) A boot stop is formed in the shell base 13 by a hinge along the first axis of rotation A1, comprising a bearing 61 supported by the shell base 13 and a pin 57 held by the base 1 and inserted in the bearing 61. The boot stop, as explained above, allows the user to guide and pre-position the boot 2, in any position form the intermediate open position, FIG. 2, to the closed position, FIG. 3. Thus, during the ultimate closing phase, no horizontal sliding of the boot relative to the base is observed. The intermediate open position is defined by the first contact of the user's boot with the boot stop as the spoiler 3 is pivoting about the first axis of rotation A1.

(21) In one embodiment, the shell base 13 is cut in front of the bearing 61 in order to allow the latter to play the role of a boot stop.

(22) The pedal 5 preferably is fixed to two arms 17 which rotate around the second axis of rotation A2 by connecting means such as rivets 15 inserted in bores 16. The pedal 5 controls the spoiler 3 in the closed position in an automatic manner, without manual intervention. The arms 17 transmit a pressure exerted on the pedal 5 by the user's boot 2 to the spoiler 3, thus producing a motor torque from the initial opening position to the closed position.

(23) According to the first, second, and fourth embodiments, the arms 17 are connected to the base 1 in such a way as to allow them to move forward or backward in a combined movement with the rotational movement about the second axis of rotation A2. According to the third, fifth and sixth embodiments, the arms 17 to which the pedal 5 is fixed enable a free wheel rotation about the second axis of rotation A2. However, the free wheel rotation of the arms 17 also applies to the embodiments for which the arms are connected to the base in such a way as to allow them to move forward or backward. Also, the connection of the arms to the base allowing this forward and backward movement may be implemented with the embodiments for which the arms experience a free wheel rotation.

(24) In all illustrated embodiments, the pedal 5 is fixed to the arms 17. However, the pedal 5 may also be rotatable around a bar which is fixed to the arms 17. The invention also provides for a pedal 5 split into two parts, each fixed to an arm 17.

(25) In the embodiments for which the arms 17 experience a free wheel rotation, illustrated by FIGS. 5, 7 and 8, the connecting means 15, 16 along the second axis of rotation A2 ensure the guiding of the pedal 5 as it rotates freely with respect to the base 1, so that it follows the boot sole movement during fitting.

(26) According to the first and fourth embodiments, two connecting rods 21 are hinged to the arms 17 and the base 1 in order to increase the guiding accuracy of the pedal 5. The respective articulations comprise connecting means 23 and 25. Due to the guiding, the arms 17 are moved forward towards the front part 7 of the base 1 and then backward towards the rear part 9 of the base 1, as the spoiler 3 rotates about the first axis of rotation A1. In other words, the connecting rods 21 accompany a horizontal component of the movement of the arms 17 during the rotation of the spoiler 3 around the first axis of rotation A1.

(27) According to the first embodiment, FIGS. 1 to 3, the connecting rods 21 are hinged to the front part 7 of the base 1. This embodiment advantageously produces, in the open position, the loosening of a front strap, as it will be explained further. According to the fourth embodiment, FIG. 6, the connecting rods 21 are hinged to the rear part 9 of the base 1.

(28) According to the second embodiment, illustrated in FIG. 4, the arms 17 are articulated to the base 1 by a guide 20 held by the base 1 and a pin 22 supported by the arms 17 and inserted in the guide 20. The guide 20 may be oblong or curvilinear, as illustrated in FIG. 4. This articulation produces the same effect as the connecting rod described above, namely a forward movement of the arms 17 towards the front part 7 of the base 1 and then a backward movement towards the rear part 9 of the base 1, during the rotation of the spoiler 3 around the first axis of rotation A1.

(29) The length of the arms 17, measured from the pedal 5 to the connecting means 15, 16 along the second axis of rotation A2, preferably is chosen so that the pedal 5 comes into direct contact with the snowboard in the closed position. This arrangement facilitates the removal of snow that may accumulate on the base 1 in the open position. In addition, the direct contact of the pedal 5 with the snowboard enhances the transmission of the pressure from the user's heel. This direct contact applies to the six embodiments of the invention.

(30) A snowboard binding according to the invention comprises means for maintaining the spoiler ii the closed position.

(31) A first example of such a means is described with reference to the fifth embodiment illustrated in FIG. 7, but this example also applies to other embodiments. The locking means comprises a lever 27 hinged to the spoiler 3 by a link 29 for pivoting against an elastic return means (not shown). The lever 27 is provided with notches 31 and cooperates with a retaining element 33, fixed relative to the rear part 9 of the base 1 and provided with notches 35. The respective notches 31 and 35 of the lever 27 and the retaining element 33 are oriented to prevent the pivoting of the spoiler 3 in the opening position, thus blocking it in the closed position.

(32) It should be noted that the notches 31 and 35 determine several closing positions. This arrangement enables the binding to be locked even in presence of possible snow accumulated under the pedal 5 or under the user's boot.

(33) Unlocking is caused by manual action on the lever 27, for example by means of a flexible link (not shown), in order to release the notches 31 and 35. The lever 27 may be arranged on one side of the spoiler 3, that is to say on the side of one of the two means 15, 16 which connect the spoiler 3 and the arms 17. It can also be arranged on both sides of the spoiler 3. In this case, it may be shaped like a hoop 37 and act symmetrically.

(34) A second example is described with reference to the sixth embodiment illustrated in FIGS. 8 and 9, but here again, this example applies to other embodiments. It differs from the previous example in that the lever 27 comprises a beak 39 instead of notches and cooperates with a raised retaining element 41 fixed to the rear part 9 of the base 1. Note the reference 42 of an elastic return means of the lever 27, namely a spring disposed around the link 29 between the lever 27 and the spoiler 3.

(35) This second example of locking means allows only one locked position.

(36) In these examples, it is possible to interchange the roles of the lever and the raised element, so that the lever is hinged to the base and co-operate with an element fixed on the spoiler.

(37) A retaining strap 43, integral or arranged in correspondence with the ankle of a user's boot, is hinged by a connection means 45 to each arm 17. Where the binding comprises several straps, for example a front strap 47 and an ankle strap 43, the front strap 47 is hinged to the front part 7 of the base 1 while the ankle strap 43 is hinged to the pedal 5 by the arms 17. Preferably, in the intermediate open position, FIG. 2, or the initial open position, FIG. 1, the connection means 45 is arranged on the arms 17 at a distance from the first axis of rotation A1, greater than the distance between the first A1 and the second A2 axis of rotation, so as to develop the arms movement relative to the spoiler movement.

(38) The invention also provides a means for raising the front strap 47 in the open position, in order to enable the binding to be fit more easily.

(39) According to the first embodiment, FIGS. 1 to 3, the front strap 47 rotates around a hinge 50 with respect to the arms 17 which hold the pedal 5. Since the arms 17 are also hinged to the base 1 by the connecting rod 21, the rotation of the arms 17 around the second axis of rotation A2 in the initial opening position, FIG. 1, drives the front strap 47 in a loosening movement determined by the backward movement of the arms 17. In other words, the front strap 47 moves from a tightening position to a loosening position, respectively determined by a forward position of the arms 17 in the closed position of the spoiler 3 and a backward position of the arms 17 in the initial open position of the spoiler 3.

(40) The backward movement of the arms 17 in the initial open position may also determine a loosening of a front strap according to the second embodiment. As illustrated in FIG. 4, the articulation between the curvilinear guide 20 held by the base 1 and the pin 22 supported by the arms 17 and inserted in the curvilinear guide 20 enables the backward movement of the arms 17 and the loosening of the front strap 47.

(41) According to the sixth embodiment illustrated in FIGS. 8 and 9, the front strap 47 pivots with respect to a lever 49, which is hinged to the base 1 by a connection means 51 and connected to the transmission element 53 by a sliding connection 54, which allows a path difference between the transmission element 53 and the lever 49. The movement of the lever 49 is thus slaved to the rotation of the spoiler 3 in order to raise the ankle strap 43 and the front strap 47 when the spoiler 3 rotates in the open position.

(42) Since the movement of the spoiler 3 is transmitted to the lever 49 by means of the connection means 55, the invention provides for arranging this connection means 55 in such a way that, in the open position, it is at a distance from the first axis of rotation A1, greater than the distance between the first and the second axis of rotation A2, so as to develop the movement of the lever 49 relative to the movement of the pedal 5.

(43) The lever 49 may be attached to the transmission member 53 in a rigid manner, provided that the connection 51 comprises an oblong hole for accompanying the horizontal component of the transmission element movement 53 during the rotation of the spoiler 3. The lever 49 may also be connected to the spoiler 3 by an oblong hole.

(44) FIGS. 10 to 13 more particularly illustrate the spoiler of the various embodiments of the snowboard binding.

(45) The spoiler 3 comprises a shell base 13, two shell sides 12 and a first axis of rotation A1. This axis of rotation A1 is held by a hinge bearing 61 that acts as a boot stop of the shell base 13, in any position of the spoiler 3 around the first axis of rotation A1, from an angular open position to an angular closed position.

(46) In a first embodiment of the spoiler, FIGS. 11 and 12, the shell base 13 itself acts as a boot stop for guiding and pre-positioning the boot of a user.

(47) Preferably, FIG. 12, the shell base 13 comprises an opening 14 which faces the bearing 61 so that the latter acts as a boot stop. In this second embodiment, the bearing 61 or a roller 65 which rotates with respect to the bearing 61 may advantageously be provided with an outer surface determined by a concave generatrix for centring the user's boot.

(48) A hinge along the first axis of rotation A1 is provided by a pin 57 held by the base 1 and inserted in the bearing 61 supported by the shell base 13. The pin 57 is fixed to a base support 59 by screws 63. It should be noted that, for a good integration of the binding elements, FIG. 4, the rear part 9 of the base 1 may have a hoop shape, provided that the width A of the hinge, measured along the pin 57, is less than the width B of the spoiler 3, measured along the second axis of rotation A2 between the receiving bores 16 of the rivets 15 used to hinge the pedal 5.