Patent Grant
11291908
This application claims priority to German Patent Application No. 10 2018 202 874.5, filed in Germany on Feb. 26, 2018, the entire contents of which are hereby incorporated herein by this reference.
The present invention relates to a snowboard binding comprising a baseplate, which is designed to be attached by means of a fastening device to a snowboard and to sit flat against same, a highback, which extends substantially perpendicularly to the baseplate, a toe strap, and an instep strap.
Such generic snowboard bindings are known per se and are used in pairs to connect the snowboard to the snowboard shoes of a user, i.e. a snowboarder. In such known bindings, the coupling between the binding and the shoe is generally produced in such a way that first the toe straps and instep straps, which are usually equipped with ratchets, are opened, then the shoe is placed in the intended position thereof on the baseplate, and then the two straps are threaded and tightened again. To put on the snowboard using the binding, however, it is necessary for the user to sit down and usually carry out the threading and tightening process while wearing gloves, which many snowboarders find annoying.
On the other hand, so-called “flow bindings” have recently come onto the market, in which the highback can be folded backwards for insertion, in order to provide an insertion opening for the user's shoe, and it can be folded up again and secured after inserting the foot. In this case, however, sufficient space behind the binding is necessary for this pivoting movement of the highback, such that it is not possible to step into the binding for example on steep slopes, since there is no suitable space for pivoting the highback. Furthermore, the highback in such bindings must have a positioning angle of at least 5° in the closed state, which limits the flexibility of such systems. Finally, the individual adjustment and the actuation of flow bindings are complex because these bindings comprise a total of four buckles and ultimately have to be opened and closed manually.
Finally, so-called “step-in bindings” were also available for some time, in which a specially formed shoe could be snapped onto a baseplate on the snowboard. However, since this required the expensive new purchase of these special shoes, which also had to be reinforced and were therefore not very flexible, and because such systems were perceived by snowboarders as insufficient in terms of power transmission and thus driving experience, and in terms of the operation thereof when soiled by snow or ice, these systems could not succeed on the market.
It is therefore the object of the present invention to provide an improved snowboard binding of the type in question which, with unchanged travel comfort and constant adjustment options, allows the snowboard to be attached and removed in a simplified manner.
For this purpose, the snowboard binding according to the invention is formed in two parts, the baseplate and the toe strap being associated with a first module and the highback and instep strap being associated with a second module, a coupling unit being provided by means of which the first and second modules can be releasably coupled to one another, wherein the first module is designed to remain in a decoupled state on the snowboard and the second module is designed to remain in a decoupled state on the snowboard shoe.
It is to the credit of the inventors to have recognised that the two-part construction of the snowboard binding according to the invention, with the second module remaining on the shoe, can make it easier to place on the snowboard, for example by targeted stepping-on, similar to an alpine ski binding, while no compromises have to be made with regard to the travel experience and/or the individual adjustment options for the binding. For example, in some embodiments of the invention, ratchet systems for adjusting the straps for adaptation to the relevant snowboard shoe can also be provided, and snowboard shoes that have already been purchased and were originally intended for use with conventional bindings can be used.
In order to be able to ensure a firm connection between the snowboard shoe and the second module even in the decoupled state, this second module can further comprise a bracket element in a preferred design, which bracket element, in the coupled state of the binding, points with its underside in the direction of the baseplate and is designed to form a contact surface for the sole of the snowboard shoe with its upper side. In this way, by providing the bracket element, a triangle of forces between the instep strap, the highback and the bracket element can be created, which substantially spans the region of the ankle or ankle joint of the wearer. A secure hold of the second module on the snowboard shoe is thus achieved, the shoe only having a small additional shoulder in the sole region thereof due to the bracket element in the decoupled state when the wearer is walking, but this does not substantially reduce the wearing comfort. As a result of this measure, snowboard shoes that have already been purchased and were originally intended for use with conventional bindings can also be used with the binding according to the invention. Alternatively, however, alternative measures for attaching the second module to the snowboard shoe would of course also be conceivable, for example via interacting engagement elements; however, these would require a redesign or at least modification of the snowboard shoe used.
To further improve the mobility of the ankle especially in the decoupled state of the binding according to the invention in the embodiment with the bracket element, it is possible to connect the highback, the instep strap and the bracket element to one another so as to be pivotable with respect to one another about a single pin. This pin will therefore extend in the width direction of the foot of the wearer or of the shoe in the region of the ankle of the wearer such that it substantially corresponds to the hinge axis of the ankle joint.
Furthermore, the first module can further comprise a wall element which extends substantially perpendicularly to the baseplate and in an arc shape around a rear region of the baseplate. The provision of a wall element improves the lateral support of the snowboard shoe in the binding and transmits forces between the foot of the snow boarder and his snowboard in the coupled state of the binding.
In the coupled state, this wall element can also form an abutment for the highback so that the pivoting movement thereof relative to the bracket element at a predetermined angle between the highback and the baseplate is limited, the predetermined angle preferably being adjustable by means of an adjustment mechanism. This makes it easy to ensure that the highback can also transmit forces from the wearers shoe to the snowboard and vice versa, the predetermined angle further being a substantial parameter of such bindings and being intended to be adaptable depending on the intended use or technique of the snowboarder. For this purpose, the adjustment mechanism can be formed, for example, in such a way that it comprises a counter element which can be displaced on the highback in the height direction and which, in the coupled state of the binding according to the invention, comes to sit directly against the wall element, the angle between the highback and the bracket element thus being adaptable by means of the position of the counter element.
Although the coupling unit of the snowboard binding according to the invention can be designed in different ways, a particularly simple and reliable option is for the coupling unit to comprise a first part, which comprises at least one engagement element, for example a toothed rack or a latching recess, and a second part, which comprises at least one displaceable latching tooth and a reset mechanism for the latching tooth, the reset mechanism preloading the at least one itching tooth for engagement with the at least one engagement element in the coupled state.
Depending on the embodiment of the coupling unit, said unit does not have to transmit particularly high forces, in particular if the above-mentioned wall element is provided which can absorb the principal forces acting which act transversely to the snowboarder's feet in the longitudinal direction of the snowboard. The same applies due to the support of the highback on the wall element, as a result of which the forces in the direction of the snowboarder's heel can be absorbed, such that the coupling unit merely has to ensure that the forces directed away from the snowboard are absorbed and that the first module and the second module of the binding according to the invention cannot be separated from one another unintentionally.
By providing the latching teeth mentioned and a counter element suitable for interacting therewith, the barbs of these latching teeth make it easy to step into the binding, i.e. the first and the second module can be coupled, the reset mechanism ensuring in the coupled state that the at least one latching tooth and the engagement element sit firmly against one another and thus secure the binding in the coupled state thereof.
While various mechanisms are also conceivable as the actuating element for opening the binding, for example suitably arranged push buttons for releasing the engagement between the at least one latching tooth and the engagement element, in a particularly user-friendly embodiment the actuating element can comprise a traction cable, by means of which the at least one latching tooth can be moved out of engagement with the at least one engagement element against the action of the reset mechanism. Deflecting the movement for actuating this traction cable, for example by an integrated lever mechanism, in such a way that the cable is actuated in the direction of stepping out of the binding can achieve an optimal force effect for releasing the shoe from the snowboard. Furthermore, it can be provided that the traction cable extends at least in portions in the region of the highback or within same and is preferably fixable thereon. This can ensure that the traction cable in the coupled state of the binding according to the invention does not hinder the snowboarder while travelling, and a visually appealing appearance can also be achieved. To secure the traction cable to the highback, a latching mechanism can be provided, for example, which firmly connects the traction cable to the highback in the locked state and releases it only in the unlocked state to open the binding.
Although the two parts of the coupling unit can be freely associated with the two modules, the first part of the coupling unit can be associated with the first module and the second part of the coupling unit can be associated with the second module, in particular to facilitate operation when opening the binding.
In order to ensure optimum force absorption and simple operation of the binding according to the invention, one of the parts of the coupling unit can be associated with the bracket element and the other part of the coupling unit can be associated with the wall element.
Furthermore, the present invention relates to a system comprising a snowboard binding according to the invention and a snowboard shoe which is designed to be connectable to the second module of the binding. Here, one of the advantages of the present invention is that no substantial modifications need to be made to the snowboard shoe compared to known snowboard shoes, and even snowboard shoes which are already in circulation can possibly be used in the system according to the invention.
Furthermore, the system according to the invention can comprise two snowboard bindings according to the invention, two snowboard shoes and also a snowboard to which the baseplates of the two snowboard bindings can be attached by means of the fastening devices thereof, the fastening devices preferably also allowing adjustment to the attachment with regard to the position and/or angle thereof with respect to the upper side of the snowboard. These adjustments can be made, for example, by means of a washer having four screws, which allows the shoe axis to be adjusted relative to the snowboard axis.
Further features and advantages of the present invention will become apparent from the following description of an embodiment when considered together with the accompanying drawings. In the drawings, shown in detail:
In
Furthermore, the first module 10 comprises a toe strap 15 which extends substantially in an arc shape in the region of the front region 12a in the baseplate axis A of the baseplate 12 from two fastening points, of which only one fastening point 15a is shown in the view shown in
In yet another embodiment, the toe strap 15 could also be designed as a cap which, in the coupled state, protrudes over the entire front of the snowboard shoe, that is to say extends both in front of and over the toes of the shoe.
Also attached to the mounting portion 16 is a wall element 18, which likewise extends substantially perpendicularly upward from the baseplate 12, substantially follows the shape of the baseplate 12 laterally and describes an arch 18a in the rear region 12b of the baseplate 12.
On the lateral inner portions of the wall portion 18 there is also a two-part first part 20 of a coupling unit, by means of which part the coupling of the first module 10 to the second module 30 shown in
The above-mentioned second part 26 of the coupling unit is provided on a bracket element 32 of the second module 30 of the snowboard binding according to the invention and is shown in
Furthermore, the second module 30 comprises an instep strap 34, which is releasably connected to the other components of the second module 30 in order to allow placement on a snowboard shoe and which, like the toe strap 15 in the embodiment shown, is formed in one piece, but could also be adjustable in length by means of a ratchet system, as well as a highback 36, which extends substantially perpendicularly and in an arc shape and to a certain extent follows the calf of a wearer in order to allow support and power transmission between the snowboarders leg and his snowboard in this direction.
The components of the bracket element 32, instep strap 34 and highback 36 are pivotally connected to one another so as to be pivotable with respect to one another about a pin 38, which extends substantially in the region of the hinge axis of the ankle joint of the wearer. The connection itself can be formed, for example, by a pair of screws or rivets, which accordingly connect the three components mentioned on both sides of the ankle of the wearer, it being possible to open the instep strap 34 and thus place it on a snowboard shoe by releasing this connection on one side or by separating the above-mentioned ratchet system.
In the region of the highback 36, two loops 40 formed, for example, from a wrapped wire cable can further be seen in
Finally,
The counter element 42 can be seen again in
| Number | Date | Country | Kind |
|---|---|---|---|
| 10 2018 202 874.5 | Feb 2018 | DE | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2019/054696 | 2/26/2019 | WO | 00 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2019/162520 | 8/29/2019 | WO | A |
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|---|
| International Application No. PCT/EP2019/054696, International Preliminary Report on Patentability dated May 23, 2019, 7 pages. |
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| Number | Date | Country | |
|---|---|---|---|
| 20200398144 A1 | Dec 2020 | US |
