EP1679099A1 - Skibinding - Google Patents

Abstract

The binding has a ski boot carrier (2) at which front sole and heel holders are arranged. The carrier is tiltable between an original position, in which the heel holder is lowered close to a ski upper side, and pivoted positions, in which the heel holder is away from the upper side. A movable guided track ensures that the sole holder is movable with respect to rotation axis parallel to a ski boot carrier longitudinal direction.

Description

technical

The present invention relates to a ski binding, in particular a touring binding.

State of the art

Ski touring bindings (also called touring bindings) are usually adjustable between a so-called downhill position and a so-called ascent position. In the downhill position, a ski boot taken in the touring binding is held substantially immovable relative to the ski to ensure good control of the ski during departure. In the ascent position, however, the ski boot is pivotable about a transverse axis with respect to the ski pivotally between a starting position and a plurality of pivot positions, wherein the heel region of the ski boot is arranged in the starting position in the vicinity of the ski upper side and lifted in the pivot positions of the ski upper side. Overall, a joint movement between the ski boot and the ski is made possible in the ascent position, which ensures a comfortable ascent.

A touring binding of this kind, which in particular also meets all safety requirements of modern safety ski bindings, is described in WO 96/23559 (Fritschi). It has a shoe wearer on which a front sole holder provided with a front sole holder and a heel holder are provided with heel cheeks, wherein the shoe wearer is pivotable in the region of the ski boot tip about a horizontal transverse axis with respect to the ski.

Since a pivoting movement about a pivot axis in the area of the ski boot tip does not correspond to the natural movement sequence predetermined by the anatomy of the human body, various efforts have been made to develop touring bindings, which enable a more ergonomic movement during ascent.

From DE 197 03 955 (Silvretta) a touring binding is known in which the ski boot tip protrudes slightly beyond the pivot axis. The ski boot tip is held by a front sole holder in the form of a wire bracket, which is pivotally hinged to the ski boot carrier. This can, if the ski boot tip with large swivel angles on the ski upper side and pushed the ski boot on the ski boot carrier backwards is, the wire bow swung up and behind and thus partially track the ski boot tip. Because with this design principle, the pivot axis can be arranged only slightly behind the ski boot top, the comfort when upgrading compared to ski bindings of the type described in WO 96/23559 (Fritschi) is only slightly improved.

EP 890 379 (Fritschi) describes a touring binding with a double-hinge device, wherein the shoe wearer is articulated in the ball area about a first transverse axis pivotally on an intermediate piece, which in turn is hinged about a second transverse axis pivotally on a skifesten base part. Although this tour binding allows an ergonomic movement when climbing. However, it has a complex construction and is therefore relatively heavy.

The touring binding described in EP 1 321 173 (Fritschi) has a first pivot about which a front support member supporting the toe is pivotable with respect to the ski, and a second pivot about which a heel pad supporting rear support relative to the front support is pivotable. Both axes can be arranged coaxially with each other in the footpad area. Although this binding also allows a comparatively comfortable ascent, but has disadvantages in terms of a precise shoe holder, especially for large swivel angles.

The object of the invention is to provide a ski touring binding associated with the technical field mentioned above, which is based on a simple construction and yet allows a comfortable ascent and a precise shoe holder.

The solution of the problem is defined by the features of claim 1. According to the invention, a ski binding has a ski boot carrier on which a front sole holder designed to hold a ski boot in the region of the ski boot tip and a heel holder designed to hold the ski boot in the region of the ski boot heel are arranged. The front sole holder and the heel holder define a ski boot carrier longitudinal direction. The ski boot carrier is pivotable with respect to the ski about a pivot axis transverse to the ski longitudinal direction and parallel to the ski upper side connected to the ski. The position of the pivot axis with respect to the ski is fixed. The ski boot carrier is pivotable about the pivot axis between at least one home position in which the heel holder is lowered near the ski upper side and a plurality of pivot positions in which the heel holder is pivoted away from the ski top. Further, a sliding guide is provided, which ensures that the front sole holder with respect to the pivot axis is parallel to the ski boot carrier longitudinal direction displaced.

By means of the sliding guide parallel to the ski boot carrier longitudinal direction displaceable front sole holder the possibility is created to arrange the pivot axis skifest at a position which is considerably behind the front sole holder and behind the intended position for the ski boot tip. In the course of an ascent step, the ski boot carrier is then pivoted about the pivot axis with respect to the ski from the initial position, in which the ski boot carrier longitudinal direction is substantially parallel to the ski longitudinal direction and corresponds to a pivoting angle of zero degrees, that the heel holder from the ski top side upwards and the front sole holder is pivoted down towards the ski top. If at a certain pivot angle of the front sole holder (or a pivotable about this together with the pivot axis binding member) abuts on the ski upper side (or on a attached thereto binding part), the pivoting movement of the ski boot carrier is not blocked immediately, although the pivot axis at a respect the ski fixed position is arranged. (In contrast to a skifesten pivot axis is at the provided with a double hinge device touring bindings of the type mentioned, the pivot axis about which the shoe carrier is pivotally, not skifest, but pivotable about a further pivot axis with respect to the ski). Rather, in the inventive binding, the pivoting movement can be continued due to the displacement guide in the direction of an even larger pivot angle, since now the front sole holder with respect to the pivot axis parallel to the ski boot carrier longitudinal direction can be moved backwards and upwards. During this displacement movement, the distance of the front sole holder measured perpendicular to the ski boot carrier longitudinal direction to the ski boot carrier is maintained. This distance corresponds essentially to the sole thickness of the bond received in the binding Ski boot. The maintenance of this distance in the displacement of the front sole holder ensures that the ski boot is also retained during its displacement (together with the front sole holder) with respect to the pivot axis with constant precision in the binding.

In the present context, without explanation to the contrary, an axis or a pivot axis is always understood to mean a geometric axis or pivot axis, i. an axis in the mathematical sense. Although a (geometric) pivot or rotation axis can be realized in practice by means of a mechanical pivot or rotation axis. But it can also be realized by means of a shaft, a hinge, one or more journals, which cooperate with corresponding journal bearings or other suitable pivoting or pivoting means.

In the present context, a displacement guide (also referred to as a sliding joint) is to be understood as meaning any known mechanism which is designed and arranged in order to be able to displace the front sole holder parallel to the ski boot carrier longitudinal direction with respect to the pivot axis. That is, the slide guide is arranged and configured to allow the front sole holder to be slidable parallel to the ski boot carrier longitudinal direction with respect to a guide member which is pivotally hinged about the pivot axis to a ski base portion of the ski binding.

Preferably, the pivot axis is arranged such that in the initial position of the ski binding the pivot axis viewed in the ski boot carrier longitudinal direction in one of the provided for the ski boot tip longitudinal position in the direction of the heel back recessed longitudinal position, in a provided for the forefoot longitudinal region lies. This allows a particularly comfortable ascent with the ski binding, because a hinge axis in the forefoot area, especially in the field of football, a natural, the barefoot walking coming joint movement of the foot allows. Advantageously, the pivot axis - viewed in ski boot carrier longitudinal direction - by a distance of between 2 and 5 cm, preferably arranged at a distance of about 3 cm from the intended for the ski boot tip longitudinal position in the direction of the heel back. For most ski touring boots with sizes, as is typical used for adult persons, the pivot axis is then arranged in a favorable for an ergonomic sequence of motion below the front foot.

A preferred embodiment of the invention is characterized in that, in the starting position, the foremost part of an ensemble formed in the ski boot carrier longitudinal direction from the ski boot carrier and all the binding parts pivotable about it together with the pivot axis extends forwards beyond the pivot axis protrudes and that the pivot axis is arranged in a measured perpendicular to the ski longitudinal direction distance A on the ski top side or arranged below the pivot axis on the ski top side skifesten binding part. Next, the ski binding is designed and arranged such that the guaranteed by the sliding guide maximum length L of the displacement path of the front sole holder with respect to the pivot axis substantially corresponds to the reduced by the distance A supernatant D. In other words, the maximum length L is essentially dimensioned according to the formula L = D-A, wherein the distance A can also be referred to as the clear width which is available below the pivot axis for pivoting the ski boot carrier together with the binding parts attached thereto.

According to an advantageous variant of the invention, the front sole holder together with the heel holder and a front sole holder with the heel holder connecting portion of the ski boot carrier with respect to the pivot axis parallel to the ski boot carrier longitudinal direction by means of the sliding guide. Together with the front sole holder, the heel holder and the sliding portion of the ski boot carrier is then arranged between the front sole holder and the heel holder on the ski boot carrier and used in the binding ski boot with respect to the pivot axis or with respect to a about the pivot axis on a skifesten base part hinged guide part displaceable. Overall, the front sole holder, the heel holder and the sliding portion of the ski boot carrier according to this variant of the invention form a trained for receiving the ski boot, which with respect to the pivot axis or with respect to a about the pivot axis on a skifesten base part hinged guide part in Skischuhträgerlängsrichtung is displaceable.

However, as an alternative to the variant of the invention described above, substantially the entire ski boot wearer (i.e., a major portion of the wearer) may be pivotally hinged to the ski or to a non-slidable base about the pivot about that pivot axis. In this alternative variant of the invention, the front sole holder is displaceable in the ski boot carrier longitudinal direction by means of the displacement guide with respect to the ski boot carrier (or with respect to its non-displaceable portion). Further, in this case, the heel holder is also arranged slidably in ski boot carrier longitudinal direction on the ski boot carrier, wherein the heel holder is displaceable against the force of at least one longitudinal compensation spring with respect to the ski boot carrier to the rear. In a ski boot used in the ski binding with a stiff ski boot sole is then ensured that in case of a shift of the front sole holder with respect to the ski boot carrier an adjustment of the distance between the front sole holder and the heel holder to the stiff ski boot sole takes place by the heel holder with respect to the ski boot carrier also is moved backwards. The heel holder may in particular be arranged in the ski boot carrier longitudinal direction displaceable on the ski boot carrier in the same way as the heel holder of the ski binding described in EP 1 321 173 (Fritschi).

Advantageously, the ski binding is provided with a blocking device, which blocks the sliding guide against displacement of the front sole holder with respect to the pivot axis in the starting position and / or in a downhill position of the binding. This proves to be particularly advantageous for the above-mentioned variant of the invention in which the front sole holder with the heel holder and the front sole holder with the heel holder connecting portion of the ski boot carrier with respect to the pivot axis in the manner of a carriage are displaceable. By preventing the movement of the front sole holder (and thus of the ski boot) in the downhill and / or starting position of the ski binding, an improved ski control during departure with the binding in these binding positions is ensured.

According to a further advantageous aspect of the invention, the ski binding is designed and arranged on the ski that the ski boot carrier from the starting position is verschschenkbar around a pivot angle of at least 40 ° about the pivot axis around, wherein in this pivoting angle range of the front sole holder is left unshifted in its forwardmost sliding position with respect to the pivot axis. Because during normal ascents in moderately steep terrain of the ski boot carrier is hardly ever pivoted about a pivot angle of about 40 ° from the starting position, this ensures that the ski binding can be used in a major portion of a climb without pressing the sliding guide. This contributes to an improvement in comfort when climbing with the binding. Preferably, the ski boot carrier can be pivoted from the starting position even up to a pivot angle of at least 45 °, in particular even up to a pivot angle of at least 50 ° without actuation of the sliding guide about the pivot axis.

Advantageously, the front sole holder is formed as part of a safety jaw, which ensures a safety release. As a result, in the event of a fall, the safety of the skier using the ski binding can be significantly improved, without having to forego the guaranteed by the inventive binding comfort when climbing.

Further, a return spring is preferably provided, which urges the front sole holder with respect to the pivot axis by means of a restoring force caused by the return spring to the front. Is now in the course of a first phase of an ascent step, the front sole holder moved against the restoring force backwards (because, for example, the foremost lot of the front sole holder abuts the ski top and the skier still further increases the swing angle, so that one of the ski top on the front Sohlenhalter acting, the return spring opposing force the front sole holder with respect to the pivot axis moves backwards), so the return spring ensures that in the course of a later phase of the ascent step, when the pivot angle is reduced again and the restoring force opposing force is eliminated, the front sole holder is moved by the force of the return spring back into the foremost of the guaranteed by the sliding guide positions. The return spring thus ensures that the front sole holder in the course of a Lowering the ski boot heel in the direction of the ski upper side is automatically shifted back to its foremost position with respect to the pivot axis back.

Advantageously, in the case of a variant provided with a safety jaws and a return spring invention variant, the return spring is designed and arranged such that it also serves as a release spring of the safety jaw. The same spring then has two different functions, namely on the one hand the function as a return spring for the backward displacement of the front sole holder and on the other hand, the function as a trigger spring for the safety release of the safety jaw. Compared to a provided with separate return and release springs ski binding can thereby be saved at least one spring and thus weight. In principle, variants of the invention are also possible with separate return and release springs.

According to a further variant of the invention, the ski binding is provided with a gear which converts the pivotal movement of the ski boot carrier with respect to the ski in forced running in a sliding movement of the front sole holder with respect to the pivot axis. In a case of such a transmission, no return spring for the return of the front sole lower holder is required because the sliding movements of the front sole holder with respect to the pivot axis are effected in both directions by the transmission. Such a forced-running transmission may e.g. on a cam joint, a cam control, a rack meshing with a rack, a joint control by means of control cams, a crank mechanism, on a cable or chain transmission, a lever linkage or the like. based.

From the following detailed description and the totality of the claims, further advantageous embodiments and feature combinations of the invention result.

Brief description of the drawings

Fig. 1

eine Skibindung gemäss einer bevorzugten Ausführungsart der Erfindung in einer vereinfachten, schematischen Seitenansicht, in einer ersten Bindungsstellung;

Fig. 2

eine vereinfachte Ansicht von oben auf die Skibindung aus Fig. 1;

Fig. 3

eine vereinfachte, teilweise geschnittene Seiten-Teilansicht auf die Skibindung aus Fig. 1 in der ersten Bindungsstellung;

Fig. 4

die Skibindung aus Fig. 1 in einer vereinfachte Seitenansicht in einer zweiten Bindungsstellung;

Fig. 5

eine vereinfachte, teilweise geschnittene Seiten-Teilansicht auf die Skibindung in der Bindungsstellung aus Fig. 4.

The drawings used to explain the embodiment show:

Fig. 1

a ski binding according to a preferred embodiment of the invention in a simplified, schematic side view, in a first binding position;

Fig. 2

a simplified view from above of the ski binding of Fig. 1;

Fig. 3

a simplified, partially sectioned side partial view of the ski binding of Figure 1 in the first binding position.

Fig. 4

the ski binding of Figure 1 in a simplified side view in a second binding position.

Fig. 5

a simplified, partially sectioned side partial view of the ski binding in the binding position of Fig. 4th

Basically, the same parts are provided with the same reference numerals in the figures.

Ways to carry out the invention

The ski touring binding 1 illustrated in FIGS. 1-5 has an elongated ski boot carrier 2 on which a toe piece 21 and a heel piece 22 are arranged. The front jaw 21 is provided with a front sole holder 3 designed to hold a ski boot in the area of the ski boot tip, while the heel piece 22 is provided with a heel holder 4 designed to hold the ski boot in the region of the ski boot heel. The front sole holder 3 and the heel holder 4 define a ski boot carrier longitudinal direction, which corresponds substantially to the longitudinal direction of a sole 5 of a ski boot received in the ski binding 1. For the sake of clarity, neither the ski on which the ski binding 1 is mounted, nor a ski boot received in the ski binding 1 are shown in FIGS. Only in Fig. 3 of a recorded in the ski binding 1 ski boot whose sole 5 is hinted.

The ski boot carrier 2 has a guide part 6 and an elongated hollow profile 7 whose longitudinal direction substantially coincides with the ski boot carrier longitudinal direction and which is in the starting position of the ski binding in the illustrated in FIGS. 1 to 3 Extends substantially parallel to the ski longitudinal direction. The guide member 6 has in the illustration of Fig. 2 viewed from above a substantially U-shaped or fork-shaped with a rear web section 8, from which two lateral fork tips or arms 9, 10 extend parallel to each other forward. In the web section 8 of the guide member 6 a cross section of the hollow profile 7 corresponding passage is formed. The hollow section 7 is in this passage with clearance in Hohlprofillängsrichtung with respect to the guide member 6, although displaceable (and thus displaceable in Skischuhträgerlängsrichtung), but received unschwenkbar with respect to the guide member 6. In this case, the hollow section 7 extends rearwardly far beyond the rear end of the web section 8 of the guide member 6, while it extends forward to approximately in the longitudinal region of the front ends of the two lateral guide arms 9, 10.

The guide member 6 is in the region of the front ends of the two lateral arms 9, 10 (ie in the region of the fork tips) about a transversely to the ski longitudinal direction (and thus transverse to the ski boot carrier longitudinal direction) and parallel to the ski upper side (not shown) extending pivot axis 11 pivotally on a Base part 12 of the binding 1 articulated, which is fixed by means of fastening screws 13, 14, 15, 16 fixed on the ski upper side. The arms 9, 10 are each provided in the region of their front ends with a continuous transverse bore, in which a mechanical hinge axis 17 is received such that the guide member 6 is pivotable about this hinge axis 17 around. This mechanical hinge axis 17 defines the geometric pivot axis 11 around which the guide member 6 and together with this the entire ski boot carrier 2, together with attached to this front jaw 21 and heel cheeks 22 are pivotally hinged on skifesten base part 12.

The hinge axis 17 is supported by two laterally upwardly projecting support walls 18, 19 of the skifesten base part 12 of the binding 1, wherein for this purpose in the two support walls 18, 19 each have a transverse bore is formed, in which the axis 17 is received firmly and immovably , The hinge axis 17 (and thus also the geometric pivot axis 11) are the same as the base part 12 with respect to the ski fixed and immovable. The two support walls 18, 19 extend substantially in the ski longitudinal direction and project at right angles to the ski upper side upwards. Below they are over plate-shaped, parallel to the ski upper side and transverse to the longitudinal direction of the ski extending connecting webs 20, 34 connected to each other, which rest directly on the ski upper side and are fixed by means of the fastening screws 13, 14, 15, 16 fixed on the same. In a cross-section transverse to the longitudinal direction of the ski formed from the connecting webs 20, 34 and the two support walls 18, 19 ski base part 12 has a substantially U-shaped configuration. The hinge axis 17 is arranged at a distance A of approximately 35 mm above the ski upper side, an area directly below the hinge axis 17 being free from any connecting webs of the base part and other ski binding parts. In this area is thus a clear width A of about 35 mm between the ski top and the hinge axis 17 for the arrangement of about the pivot axis 11 pivotable binding parts in the different pivot positions of the ski binding 1 and the ski boot carrier 2 available.

The two rear fastening screws 14, 15 are viewed from above each disposed on opposite sides of the side of the hollow profile 7. You are from above each between the hollow section 7 and the side of the corresponding side of the hollow section 7 arranged arm 9 respectively. 10 of the guide member 6 accessible therethrough. As a result, the mounting of the binding on the ski is simplified, in particular the mounting of the base part 12th

In a rear region of the hollow profile 7, the heel jaw 22 designed as a safety jaw (also referred to as a heel machine) is arranged on the hollow profile 7. The heel cup 4 is a component of the heel pad 22. The heel pad 22 is up to an optional adjustability for the purpose of adapting the ski binding to different ski boot sole lengths and up to a slight displaceability for generating a required for a secure hold of the ski boot Sohlenanpressdrucks respect to the hollow section 7 in Essentially arranged in Hohlprofillängsrichtung immovably on the hollow section 7. The heel piece 22 and together with the heel holder 4 are arranged in substantially the same way on the hollow profile 7 of the ski boot carrier 2 as the heel piece or the heel holder of the ski binding described in WO 96/23559 (Fritschi).

In the foremost part of the hollow section 7, a compression spring 24 is received such that it extends substantially in hollow profile longitudinal direction (and thus in Skischuhträgerlängsrichtung). The compression spring 24 serves on the one hand as a trigger spring for the safety jaws designed as a front jaw 21 and on the other hand as a return spring for the sliding guide described below. Rear, the compression spring 24 is supported on an elongated pin 25, which is mounted fixedly and immovably in the web section 8 of the guide member 6. The pin 25 extends parallel to the pivot axis 11 transversely through the passage formed in the web section 8 of the guide member 6 and through the hollow section 7 received therein, wherein it passes transversely through two elongated holes 26 formed in the two side walls of the hollow profile 7. The two slots are aligned with each other and arranged parallel to each other and form a passage across the hollow section 7 therethrough. They are stretched in the hollow profile carrier longitudinal direction, wherein this longitudinal extent is dimensioned such that the hollow profile 7 in Hohlprofillängsrichtung with respect to the guided through the slots 26 in the hollow profile 7 pin 25 within the limits defined by the longitudinal extent of the slots 26 is displaced.

At the front, the compression spring 24 presses from behind on a pressure piece 27, which is displaceable with respect to the hollow section 7 in hollow profile longitudinal direction. The pressure piece 27 is partially received in the hollow section 7 and thereby guided by this displaceable in the hollow profile longitudinal direction. A stop limits the displacement of the pressure piece 27 with respect to the hollow section 7 forward. First of all, the pressure piece 27 is provided with two pin-shaped protruding projections 29, 30 (hereinafter referred to as pressure pins 29, 30).

By means of a rotatably mounted in the pressure piece 27 screw 28, the bias of the compression spring 24 can be set selectable. Thereby, the force can be set selectable, by means of which the compression spring 24 presses on the pressure piece 27.

Zuvorderst on the hollow section 7 is a front jaw base part 23, which is a part of the front jaw 21, fixedly and immovably on the hollow section 7. The front jaw base part 23 has a flange portion arranged above the foremost part of the hollow profile 7, in which a slot 31 is formed which is transverse to the hollow profile longitudinal direction and parallel to the ski upper side through the flange portion of the front jaw base part 23 passes therethrough. The direction of the passage formed by the oblong hole 31 in the front jaw base part 23 is thus parallel to the direction of the passage formed by the oblong holes 26 in the hollow profile 7. The elongated hole 31 formed in the front jaw part 23 is stretched in the hollow profile longitudinal direction (and thus parallel to the longitudinal direction of the two elongated holes 26 formed in the hollow profile 7). Through the formed in the front jaw part 23 slot 31 through the hinge axis 17 is guided. The elongated hole 31 is designed and dimensioned such that the front jaw base part 23 (and thus the hollow profile 7 permanently connected thereto) can be displaced in the hollow profile longitudinal direction with respect to the hinge axis 17 guided through the oblong hole 31 in the toe base part within the limits defined by the longitudinal extension of the oblong hole 31 ,

Overall, formed in the web section 8 of the guide member 6 passage in Hohlprofillängsrichtung, the two formed in the hollow section 7 slots 26 together with the guided through it pin 25, and formed in the flange of the front jaw base member 23 slot 31 together with the guided through this hinge axis 17 a displacement guide, by means of which the hollow profile 7 together with the attached thereto front jaw 21 and heel cheeks 22 relative to the hinge axis 17 in Hohlprofillängsrichtung within the predetermined by the longitudinal extent of the slots 26, 31 limits is displaced. The longitudinal extent of the elongated hole 31 formed in the front jaw base part 23, which is measured in the hollow profile longitudinal direction, is identical to the longitudinal extent of the elongated holes 26 formed in the hollow profile 7 measured in the same direction and measures slightly more than approximately 17 mm. That is, the hollow profile by means of the sliding guide by a maximum displacement L of approximately 17 mm with respect to the hinge axis 17 (and thus with respect to the pivot axis 11) in Skischuhträgerlängsrichtung is displaced. In this case, the force of the compression spring 24 must be overcome with a displacement of the hollow section 7 to the rear, while a displacement of the hollow section 7 causes the front of the force of the compression spring 24 or at least supported. The compression spring 24 thus serves as a return spring for the aforementioned sliding guide.

Between the two pressure pins 29, 30, an upwardly projecting support part is formed on the front of the toe base part 23, which supports the front sole holder 3. The sole tip of the ski boot is held down by the sole holder 3 on a Sohlenauflagepartie of the toe, in which the ski boot tip is taken centered with respect to the ski boot carrier longitudinal direction. Measured in hollow profile longitudinal direction is the rear wall (which determines the foremost theoretically possible position of the ski boot sole tip) of this support part approximately 13 mm in front of the front end of the front jaw base part formed elongated hole 31 and thus approximately 30 mm in front of the pivot axis 11 of the ski binding 1 in the in the figures 1 - 3 illustrated initial position of the binding 1 arranged.

The front sole holder 3 is mounted laterally swingable about a central pivot axis 32 on the support part of the front jaw base part 23. He is provided with two downwardly and rearwardly projecting lateral support arms 33, respectively, to the rear on the front end faces of the pressure pins 29, respectively. 30 support. This ensures that when the ski boot tip exerts excessive lateral forces on the front sole holder 3, this swings laterally against the spring force acting as a trigger spring of the safety jaw 21 compression spring 24 and thereby releases the ski boot.

In the starting position of the ski binding 1 shown in FIGS. 1 to 3, the foremost part of the front sole holder 3, viewed in the longitudinal direction of the hollow profile, projects forward by a distance D of approximately 47 mm beyond the rear end of the long hole 31 formed in the toe base part 23 (and thus over the pivot axis 11 also).

The front jaw base part 23 has a stop section arranged below the hollow profile 7, on which a downwardly projecting projection 35 is formed, which serves as a stop 35 for the above-mentioned sliding guide. The stop 35 protrudes below the hollow profile 7, viewed in Hohlprofillängsrichtung slightly behind the rear end of the formed in the front jaw base member 23 long hole 31, downwards. The stop 35 is arranged such that it is in the initial position of the ski binding 1 shown in FIGS. 1-3, immediately before (viewed in the hollow profile longitudinal direction). an upwardly projecting counter-stop 36, which is formed on the rearmost connecting web 34 of the base part 12. As a result, the stop 35 and the counter-stop 36 prevent the front-jaw base part 23 and the hollow profile 7 connected thereto from being displaced in the hollow-profile longitudinal direction to the rear in this binding position. The stop 35 and the counter-stop 36 thus form a blocking device, which in the initial position of the ski binding 1 illustrated in FIGS. 1-3 blocks the sliding guide against displacement of the hollow profile 7 with respect to the base part 12 (and thus with respect to the pivot axis 11).

The ski boot carrier 2 is relative to the ski on which the binding 1 is mounted, pivotable about the pivot axis 11 in any pivoting positions between the starting position shown in Figures 1-3 - in which the ski boot carrier 2 is arranged substantially parallel to the ski upper side, and the binding position shown in Figures 4 and 5, in which the ski boot carrier 2 is arranged substantially perpendicular to the ski upper side.

In order to ascend with the ski binding 1 shown in FIGS. 1 to 5, it is first brought into its ascent position by the end piece of the hollow profile 7 being unlocked by means of a locking device 37. The ski binding 1 is then in its initial position shown in Figures 1 to 3.

Starting from this starting position, the skier lifts the heel of the shoe in a first phase of an ascent step. In the first phase of the ascent step, the entire ski boot carrier 2 together with the toe piece 21 and the heel piece 22 is pivoted about the pivot axis 11. In this case, the stop 35 is lifted away from the base part 12 and thus also from the counter-stop 36 upwards, whereby the blocking of the sliding guide is released. Nevertheless, in the first phase of the ascent step, initially the hollow profile 7 remains essentially unobstructed with respect to the guide part 6, because the hollow profile 7 is pressed by the compression spring 24 into its foremost sliding position with respect to the guide part 6.

When the skier performs a comparatively long ascent step, abuts at a pivoting angle of about 45 ° of the ski boot carrier 2 with respect to the ski upper side the foremost part of the front sole holder 3 and the foremost lot of its support arms 33 on the ski upper side, in an area between the two support walls 18, 19 and the two connecting webs 20, 34 of the skifesten base part 12, where the ski top side below the hinge axis 17 and the pivot axis 11 is freely accessible from above. This concludes the first phase of the ascent step.

If now the ascent step is continued in the direction of a further enlargement of the swivel angle between the ski boot carrier 2 and the ski upper side, then the ski upper side presses from below and forward on the front side of the front sole holder 3. In a second phase of the ascent step, the pressure is now raised due to the pressure of the ski upper side the front sole holder 3 simultaneously with the further pivoting of the ski boot carrier 2 of the toe 21 together with the hollow section 7 and the heel 22 with respect to the guide member 6 and the hinge axis 17 (or the pivot axis 11) against the spring force of the compression spring 24 in hollow profile longitudinal direction moved back wherein this sliding movement is enabled by the above-mentioned sliding guide. This second phase of the ascent step can be continued up to the binding position shown in FIGS. 4 and 5, in which a pivot angle of approximately 90 ° is reached. In this binding position, the hollow section 7 with respect to the guide member 6 is displaced maximally backwards or upwards, which is recognizable by the fact that now the pin 25 in the foremost (or lowest) position through the elongated holes formed in the hollow profile 7 passes and the hinge axis 17 also leads in the foremost (or lowermost) position through the elongated hole 31 formed in the front jaw base part 23.

As soon as the skier starts to pull the ski in the course of a step of ascent, the ski boot carrier 2 is swiveled back from the position pivoted relative to the ski in the direction of the starting position until the starting position shown in FIGS. 1 to 3 has been reached. In this case, the above-described motion sequences of the possible second phase and the first phase of an ascent step are carried out in reverse order and in inverse motion or sliding directions.

Usually, during ascent with ski touring bindings, steps are hardly taken so long that the shoe has to be swiveled more than approximately 45 degrees with respect to the ski. In this case, the above-described second phase of the ascent step is not executed. The pivoting movement of the binding 1 is then already stopped during the first phase of the ascent step and returned in the reverse direction to the starting position of the binding 1. In this case, the hollow profile 7 with respect to the guide member 6 and the pivot axis 11 during the entire ascent step in Hohlprofillängsrichtung remains substantially unshifted.

In summary, it should be noted that the invention provides a ski touring binding 1 which belongs to the technical field mentioned at the outset and which is based on a simple construction and allows a comfortable ascent as well as a precise and stable shoe mount.

Claims (11)

A ski binding (1) with a ski boot carrier (2) on which a front sole holder (3) for holding a ski boot in the area of the ski boot tip and a heel holder (4) designed to hold the ski boot in the region of the ski boot heel, which define a ski boot carrier longitudinal direction, wherein the ski boot carrier (2) with respect to the ski around a transverse to the ski longitudinal direction and parallel to the ski top pivot axis (11) around whose position is fixed with respect to the ski is pivotable between at least one starting position, in which the heel holder (4) in the vicinity the ski upper side is lowered, and a plurality of pivot positions, in which the heel holder (4) is pivoted away from the ski top side, characterized in that a displacement guide (8, 26, 25, 31, 17) is provided which ensures that the front sole holder (3) with respect to the pivot axis (1) is displaceable parallel to the ski boot carrier longitudinal direction. Ski binding (1) according to claim 1, characterized in that in the starting position, the pivot axis (11) viewed in the ski boot carrier longitudinal direction in one of the longitudinal position provided for the ski boot tip in the direction of the heel cup (4) set back longitudinal position in a provided for the forefoot longitudinal region , is arranged. A ski binding according to claim 1 or 2, wherein in the starting position the foremost part of an ensemble formed in the ski boot carrier longitudinal direction from the ski boot carrier (2) and all the binding parts pivotable together with it about the pivot axis (11) extends forward about a projection (D) over the The pivot axis (11) protrudes out, and wherein the pivot axis (11) is arranged in a direction perpendicular to the ski longitudinal distance (A) on the ski top side, characterized in that the of the sliding guide (8, 26, 25, 31, 17) ensured maximum length (L) of the displacement path of the front sole holder (3) with respect to the pivot axis (11) substantially corresponding to the distance (A) reduced supernatant (D). Ski binding (1) according to one of claims 1 to 3, characterized in that by means of the sliding guide (8, 26, 25, 31, 17) of the front sole holder (3) together with the heel holder (4) and a front sole holder (3 ) with the heel holder (4) connecting part (7) of the ski boot carrier (2) with respect to the pivot axis (11) parallel to the ski boot carrier longitudinal direction is displaceable. Ski binding according to one of claims 1 to 3, characterized in that substantially the entire ski boot carrier is hinged immovable relative to the pivot about this pivotally on the ski, that the front sole holder is displaceable by means of the sliding guide with respect to the ski boot carrier in Skischuhträgerlängsrichtung, and that the heel holder in Skischuhträgerträger longitudinal direction is slidably mounted on the ski boot carrier, wherein the heel holder against the force of at least one longitudinal compensation spring with respect to the ski boot carrier is displaced to the rear in a ski binding used in the ski binding with a stiff ski boot sole in case of displacement of the front sole holder with respect to the ski boot carrier an adjustment of Keep the distance between the front sole holder and the heel holder to the stiff ski boot sole. Ski binding (1) according to one of claims 1 to 5, characterized in that a blocking device (35, 36) is provided, which in the initial position of the binding (1), the sliding guide (8, 26, 25, 31, 17) against a Moving the front sole holder (3) with respect to the pivot axis (11) blocked. Ski binding (1) according to one of claims 1 to 6, characterized by a design of the ski binding (1) and an arrangement of the pivot axis (11) such that the ski boot carrier (2) with the unshifted in its foremost sliding position with respect to the pivot axis (11) left front sole holder (3) from the initial position by a pivot angle of at least 40 °, preferably by one Pivoting angle of at least 45 °, in particular by a pivot angle of at least 50 ° about the pivot axis (11) is pivotable around. Ski binding according to one of claims 1 to 7, characterized in that the front sole holder (3) is formed as part of a safety jaw (21) ensuring a safety release. Ski binding according to one of claims 1 to 8, characterized in that a return spring (24) is provided, which urges the front sole holder (3) with respect to the pivot axis (11) in such a way that this by the force of the return spring (24) in the foremost one of the positions guaranteed by the sliding guide (8, 26, 25, 31, 17) is displaced when no force opposing the force of the return spring (24) acts on the front sole holder (3). Ski binding according to claim 8 and claim 9, characterized in that the return spring (24) is designed and arranged such that it also serves as a release spring of the safety jaw (21). Ski binding according to one of claims 1 to 8, characterized in that it is provided with a transmission which converts the pivoting movement of the ski boot carrier with respect to the ski in forced running in a sliding movement of the front sole holder with respect to the pivot axis.

Images