The present application is a National Stage Application of PCT International Application No. PCT/FR2015/050171 (filed on Jan. 26, 2015), under 35 U.S.C. § 371, which claims priority to French Patent Application Nos. 14/00165 (filed on Jan. 24, 2014) and 1453499 (filed on Apr. 17, 2014), which are each hereby incorporated by reference in their respective entireties.
The present invention relates to a binding for a touring ski, a Telemark ski or a cross-country ski with so-called “step in” automatic locking.
Traditionally, bindings for touring skis, Telemark skis or cross-country skis require release manipulation in order to open the binding or preparation manipulation to enable the boot to be fitted. Apart from the opening of the binding, it is practically always necessary to effect manual action directly by hand or by means of a ski pole for locking the boot on the ski.
In Telemark, the most usual equipment is bindings in accordance with the “75 mm standard”, such as for example the bindings described in the U.S. Pat. No. 7,401,802 (Black Diamond Equipment). This type of binding is characterized by a fixed front clamp that holds the so-called “ducks beak” shape situated at the front of the boot and a cable tension system equipped with a spring locking on the heel of the boot. This boot standard makes it tricky to walk on rocks when climbing, does not allow the use of standard glacier crampons and limits the use of this type of boot solely to the Telemark ski. In addition, fitting the boots in the bindings is always very tricky. The skier is often obliged to place a knee on the ground in order to lock the ski and to be able to lock the tension system on the heel of the boot. These operations are made more difficult when snow is present, since the skis, being rarely equipped with a ski stop, easily slip, sometimes making the locking operation tedious. Finally, ejection of the ski in the event of a fall is practically impossible, and the use of these bindings therefore has a high risk of injury for skiers.
In the middle of the years 2000, a group of manufacturers defined a new standard, referred to as “New Telemark Norm” or NTN, which established a novel ski/boot interface standard. The novel boots defined by the standard can be used with a Telemark or alpine ski, and can receive normal glacier crampons. The sole of the boot is divided into two parts: the front sole, specific to the NTN standard, and the heel, which is conventional and separate from the front sole. The specificity of the front sole stems from the projection that is situated at the arch at the middle of the boot, at the rear end of the front sole. Thus the boot can be secured to the ski while being held between the front part of the front sole and the projection. This standard made it possible to create bindings that combine the freedom of movement of the heel particular to the Telemark and include a safety device releasing the ski in the event of the skier falling. Responding to several problems with the 75 mm standard, these bindings can also include ski stops and afford additional safety for skiers.
The Telemark bindings as described in the document EP 1 790 396 (Rottefella) are binding models complying with the NTN standard. These bindings do however require manual release, tricky fitting of the boot and action for locking the latter by hand, with the free hand or using a ski pole. These bindings are also characterized by a weight greater than the average of the bindings available on the market.
In parallel to the development of these bindings, boot manufacturers have included, in certain models in their range, front and rear interfaces particular to bindings of the Dynafit® type. These interfaces of the Dynafit® type are characterized by the presence of two hollow conical inserts situated on the front tip of the sole and an insert plate on the heel. NTN Telemark boots equipped with these interfaces enable the skier to use them either on skies equipped with an NTN Telemark binding or on skis equipped with tourist bindings to the Dynafit® standard. Users greatly appreciate the versatility of this type of new generation of boot. The invention described in the present patent application uses this model of boot.
Starting on the basis of this concept of boot to the NTN standard and equipped with a Dynafit® interface, a binding model has appeared, associating the front part of the Dynafit® binding and the locking tension system on the heel of the boot particular to Telemark fixings to the “75 mm standard”. This system ensures the holding of the front of the boot by means of the clamps (forks) of the Dynafit® binding, while the tensioning of the boot is provided by the conventional heel block system held by the cable/spring assembly of the Telemark bindings to the “75 mm standard”. This system makes it possible to obtain a functional and effective assembly in Telemark mode, with a reasonable weight and effective in tourist skiing, but does however require manual locking of the boot and limits the safety of the skier because of difficulty in ejecting the skis.
Finally, through U.S. Patent Publication No. 2003/0047912, a ski binding is known, the “step in” function of which is provided by two levers, one of which is articulated on the base of the binding and the other one of which can slide, by means of its free end, in a slot in this base. The boot locking zone is moreover secured to the sliding lever with respect to translation. When the user presses downwards on the locking zone, the latter drives the lever sliding forwards, so that this locking zone tends to advance with respect to the boot, which performs the fixing operation proper.
The problem addressed by the present invention is to allow both automatic locking of the boot in the binding, the use of the binding in tourist mode without detachment of the skis, easy ski detachment actuated by the skier and automatic ski detachment in the case of a fall, while using a binding with a total weight that is as low as possible.
According to the invention, the problem is solved by a ski binding, in particular a binding for a touring, Telemark and/or cross-country ski, for fixing a ski boot comprising a front sole and a heel, said ski binding comprising:
a front retaining element, able to cooperate with the front sole of the boot,
a rear retaining element able to cooperate with a projection on the rear part of the front sole and/or with the rear sole of the boot, said rear retaining element being able to pivot, while raising or lowering its rear part, in the vertical plane about a horizontal axis (which may be a physical or virtual axis) orthogonal to the direction of the ski between a so-called upper position (or “idle position”) and a so-called lower position (or “engaged position”),
a tensioning element that acts between the rear retaining element and the ski and/or the front retaining element, able to tension the boot on the binding and to enable the heel to be freely lifted,
said binding being characterized in that it also comprises:
a tensioning link placed under the rear retaining stirrup and connected to the latter, so as to enable said rear retaining stirrup to pivot in the vertical plane about a horizontal axis orthogonal to the direction of the ski,
a fixed stop (also referred to as the “retraction stop”) placed on the ski or the front retaining element, able to cooperate with the tensioning link, so as to enable the rear retaining stirrup to move back, tensioning said tensioning element, when the heel of the boot exerts a downwardly directed pressure on the rear retaining boot situated in the idle position.
The front retaining element is advantageously a binding system of the Dynafit® type, with a double locking lug on the boot. The front retaining element comprises a control element, such as a latch, that can be actuated by the user, which transmits this movement to the clamps by means of a front link.
The retraction stop cooperates with the tensioning link and, when the boot is engaged in the rear retaining element, converts the vertical force exerted by the heel of the boot on the rear retaining element into a horizontal movement in the rear direction of said rear retaining element, which allows the engagement of said rear retaining element (preferably by means of a rear attachment clamp) either on the rear projection of the front sole or on the heel.
According to one embodiment of this binding, the rear part of said rear retaining stirrup or of said tensioning element is connected to the rear part of said tensioning link. The tensioning link enables the retaining stirrup to pivot between a high position and a low position.
The rear retaining stirrup may be connected to the front retaining element by a flexible connecting element. The latter may, in its rear part, have a guide that slides in the slide of the rear retaining element.
According to another embodiment, which may be combined with the previous one, said tensioning link, when the rear retaining element is engaged, abuts with its front end against said fixed stop.
According to another embodiment, which may be combined with one or more of the previous ones, when the rear retaining stirrup is released from the retraction tension and when the projection of the rear part of the front sole or the heel of the boot is inserted in the rear retaining stirrup, the projection of the rear part of the front sole or the heel of the boot bears on a tongue of the link, and locks said link in the retracted position.
According to yet another embodiment, which may be combined with one or more of the previous ones, the rear retaining element is designed so that, when the boot is fitted in the rear retaining element, after locking of the front retaining element on the front part of the front sole, when the user lowers the heel, the rear sole bears on the rear retaining stirrup or an element associated with the rear retaining stirrup, and imposes a retraction of the rear retaining stirrup under the effect of the link, itself in abutment on the fixed retraction stop, so that this retraction of the rear retaining stirrup enables the projection or heel of the boot to be inserted in the rear retaining stirrup.
According to yet another embodiment, which may be combined with one or more of the previous ones, the rear retaining element also comprises a retraction protrusion placed behind the fixed stop or integrated in the tensioning link, able to release the tensioning link from its abutment on the fixed stop when the projection or the heel of the boot is inserted in the rear retaining stirrup.
According to yet another embodiment, which may be combined with one or more of the previous ones, said tensioning element comprises two elastic return members (typically springs) disposed on either side of the rear retaining element, and preferably inside the rear retaining stirrup, and at least one knurled ring for adjusting the preloading of the tensioning element, and said tensioning element preferably comprising in addition a set of rods and cables that cooperate with said springs for tensioning the retaining stirrup. Said rods may be disposed inside said springs, typically parallel to the direction of the binding (i.e. parallel to the ski). The cables may be replaced by an arch.
According to yet another embodiment, which may be combined with one or more of the previous ones, the binding comprises a control element (typically a latch) that can be actuated by the user, said control element (latch) making it possible to keep the rear retaining stirrup sufficiently retracted to prevent the projection or heel from being hooked by the rear retaining stirrup, either by acting directly on the rear retaining stirrup or by acting directly on the tensioning link. This is suitable for practicing cross-country skiing or tourist skiing.
According to yet another embodiment, which may be combined with one or more of the previous ones, said rear retaining stirrup comprises two lateral stops, disposed on either side of its rear part, so as to center the rear projection of the front sole of the boot on said rear retaining stirrup, said lateral stops preferably being disposed so as to be able each to pivot about a vertical axis under the effect of a torque generated by a lateral movement of the boot when the ski is removed.
According to yet another embodiment, which may be combined with one or more of the previous ones, the tensioning link is connected to the tensioning element or to the rear retaining stirrup by means of a spindle that is situated in the plane of said tensioning element, enabling the rear retaining stirrup to slide parallel to the plane of said tensioning element.
According to yet another embodiment, which may be combined with one or more of the previous ones, the front retaining element comprises three components, namely a specific element (latch), a slide and a pivoting element; the slide can move in the front-to-rear direction in order to release or lock said pivoting element. When the binding is in Telemark mode, the user can pivot the element forwards, and a protuberance on said element bears on said slide and slides it towards the rear, releasing said pivoting element to enable the skier to easily lift the boot in order to practice tourist skiing. The user can thus switch into “tourist skiing” mode without removing the skis.
According to yet another embodiment, which may be combined with one or more of the previous ones, the tensioning link bears in service on the retraction stop at a bearing point that is situated in front of the connection point between this link and the retaining stirrup, in side view and with reference to the direction of movement of the ski.
According to yet another embodiment, which may be combined with one or more of the previous ones, the tensioning link is mounted so as to be able to pivot on the rear retaining stirrup about an axis orthogonal to the direction of the ski. The tensioning link can in particular bear in service on the retraction stop at a point that is situated in front of said pivot axis of this link, in side view and with reference to the direction of movement of the ski.
According to yet another embodiment, which may be combined with one or more of the previous ones, the rear retaining element comprises a front part that is free to pivot with respect to the front retaining element, about a transverse axis, while being translationally connected with respect to this retaining element, the rear retaining stirrup having a degree of freedom in translation with respect to the front part, along the longitudinal axis of the ski.
According to yet another embodiment, which may be combined with one or more of the previous ones, the rear retaining element is provided with removable fixing means, for the removable fixing of blades, said blades being able to pivot with respect to the rear retaining element about a transverse axis. In particular, the removable fixing means may comprise a fixing member delimiting a housing, suitable for receiving by sliding a pivoting rod, secured to said blades.
According to yet another embodiment, which may be combined with one or more of the previous ones, the binding comprises a heel block and a heel block support, this heel block being mounted so as to be able to move with respect to the support between an access position in which it allows access to a housing of the support, this housing being able to receive a sensor, and a covering position in which it prevents access to this housing while protecting this sensor.
According to yet another embodiment, which may be combined with one or more of the previous ones, the binding comprises a control element allowing control of the front retaining element as well as a member for locking this control element, this locking member being able to move between a neutral position in which it does not interfere with the movement of the control element and a locking position in which it prevents the movement of the control element in order to prevent any unwanted disengagement of the boot with respect to the front retaining element. The locking member may in particular extend through a recess in the control element and this locking member then has a locking zone able to come into abutment against the walls of this recess, in said locking position.
In this description the expressions “front”, “rear”, “in front of”, “behind”, “advances” and “retracts” refers to the direction of the ski in the normal situation of use.
As illustrated in
The main function of the heel block 4 (visible in particular in
The front retaining element 2 is known as such; it may advantageously be a known front retaining element of the so-called “Dynafit®” binding comprising two conical lugs 20a, 20b that each cooperate with a hollow conical insert 23 situated on the right and left side of the front part of the front sole 11 of the boot 5. The front retaining element 2 in the “open” (disengaged) position is actuated by the forward movement of the tip of the front sole of the boot 5, by means of the front link 21, as will be described below. The lugs 20a, 20b are each mounted on a clamp 24, which is actuated by the front link 21; in the engagement position of the front retaining element 2, these clamps 24 move the lugs 20a, 20b laterally closer to the front part 14 of the front sole 11, so as to enable the lugs 20a, 20b to be inserted in said hollow inserts 23. Thus the front retaining element 2 makes it possible to hold the boot 5 in a position which, when the rear sole 13 of the boot 5 is not retained in a low position and can be raised, allows easy tilting of the front part 14 of the front sole 11 about a horizontal axis, orthogonal to the long direction of the ski; this axis passes through the lugs 9a, 9b.
Any other type of front retaining element 2 that allows easy tilting of the front part 14 of the front sole 11 about the horizontal axis, orthogonal to the long direction of the ski, can be used in the context of the present invention. Preferably, this front retaining element 2 is designed so as to allow disengagement of the front part 14 of the front sole 11 of the boot 5, by a control element (typically a latch) 26 actuated by the skier by hand or with pressure from the tip of the pole. In the example of the front retaining element of the Dynafit® type, in order to disengage the boot from the front retaining element 2, the front retaining element 2 can be actuated by a control element (here a latch) 26 that actuates a front link 21; said control element (latch) 26 can be actuated by the skier by hand or by exerting a substantially vertical pressure with the tip of his pole; in order to easily accept this tip of the pole, the latch 26 may have a hollow zone 22. This actuation, manual or with the pole, causes the opening of the front retaining element 2, which releases the front sole 11 of the boot 5.
It is on the retaining element 3 that the present invention is based. It first of all comprises a front part 3A, which is free to pivot with respect to the front retaining element 2, about a transverse axis, while being translationally connected with respect to it. The rear retaining element 3 moreover comprises a rear retaining stirrup 7, having a degree of the freedom in translation with respect to the front part 3A, along the longitudinal axis of the ski. This translation movement, from rear to front, takes place counter to a tensioning element described below. This rear retaining stirrup 7 is connected to a link 6 referred to as the tensioning link, namely this link can pivot with respect to this stirrup about a transverse axis A6. In addition, said rear retaining stirrup 7 is, in its rear part, secured to the rear attachment clamp 8 able to attach to the rear projection 46 of the front sole 11. The rear retaining element 3 moreover comprises a tensioning element 35 mentioned above, which typically comprises at least one spring 31 (or other elastic return member) and one or more transmission elements, for example a system comprises rods 32 and at least one cable 33 (visible in
The rear retaining stirrup 7 can tilt between a high position referred to as the “idle position”, illustrated in
In addition to the front retaining element 2 and the rear retaining element 3,
The tensioning link 6 can be equipped with an elastic return member (typically a spring) 18 that presses it downwards.
We now give a precise description of the functioning of the binding 1 according to the invention, and in particular its rear retaining element 3, referring in particular to
In the idle position of the binding 1, the front retaining element 1 is in the open position (for example, in a front retaining element 1 of the Dynafit® type, the flanges 24 are open), and the tensioning link 6 and the rear retaining stirrup 7 are in the high position (raised position): the idle position is the position in which the binding 1 is ready to have the boot inserted.
When the user has engaged the front retaining element 2 (that is to say, in the example of the Dynafit® retaining element described above: locks the front clamps 24 by means of the lugs 20a, 20b, which cooperate with the hollow inserts 23 of the boot 5), he merely needs to lower his heel 12 in order to lock the boot 5 in the rear retaining element 3 according to the invention. When the skier lowers the heel 12 of his boot 5, the rear sole 13 of the boot 5 bears on an interface piece (not shown in the Figures) or directly on the rear retaining stirrup 7 and in fact forces the tensioning link 6 to bear on the fixed stop (also referred to as the retraction stop) 16 (see
Under the vertical force imposed by the boot, the link 6, in abutment on the retraction stop 16, exerts a horizontal force on the rear retaining stirrup 7 directed towards the rear. This imposes a retraction movement on this stirrup with respect to the front part 3a of the rear retaining element 3. This retraction movement of the rear retaining stirrup 7 takes place counter to the tensioning element 35 of the rear retaining element 3, namely this tensioning element is actuated. (This advance and retraction movement of the rear retaining stirrup 7 can be noted in
When the rear retaining stirrup 7 arrives in the retracted position, enabling the boot 5 to be inserted (in an advantageous embodiment of the rear retaining element 3 this will enable the projection 46 to be engaged by the rear attachment clamp 8), a suitable protuberance of the protrusion 10 type situated on the ski or an element 76 of the binding, such as for example on the retraction stop 16, retracts the tensioning link 6 by exerting an upwardly directed force on the front part of the tensioning link 6. This retraction of the link 6, which typically takes place about a horizontal axis 19, releases the retaining stirrup 7 from the retraction tension. The retaining stirrup 7, under the effect of the tension of the tensioning element 35, returns to the idle position and tensions the boot 5. In this situation the boot 5 is locked on the ski binding 1, and the skier can devote himself to Telemark skiing, knowing that the rear sole 13 of the boot 5 remains fixed in the rear retaining stirrup 7 and can be lifted by tilting it upwards; this movement will be more effective with a Telemark ski boot, the shell of which, in particular on the front part, is sufficient flexible.
In one embodiment, the fixed stop 16 is fixed to the ski. In another embodiment it is secured to the front retaining element 2.
In order to release the skis, the skier will simply have to release the part of the front sole 11 of the boot 5 held by the front retaining element 2, typically by exerting a vertical pressure with his pole on the latch 26. In the case of the front retaining element 2 of the Dynafit® type described above, when the skier actuates the control element 26 (in the example, when the skier presses on the latch 26), the clamps 24 separate on either side of the front sole 11, thus releasing the front part 14 of the front sole 11 by disengaging the lugs 20a, 20b, releasing the front tip of the boot. Since the boot 5 is no longer held, the skier merely needs to move his boot forward slightly in order to disengage the heel or the projection 46 and to remove his boot 5 from the binding 1.
When the projection 46 of the front part 15 of the front sole 11 is inserted in the rear clamp, it bears on the tongue 36 of the link 6 and locks it in the retracted position.
In an embodiment illustrated in
According to a particular embodiment, the tension springs 31 of the tensioning element 35 are integrated in the rear retaining stirrup 7.
In one embodiment, the rear retaining element 3 is able to pivot, by raising or lowering its rear part, in the vertical plane about a horizontal axis orthogonal to the direction of the ski between a top position and a bottom position. This axis may be a physical axis and/or a virtual axis. A virtual axis may be represented by a flexible material, in this case a flexible connection element 30 formed on its front part 3A. A flexible connection element may have, during functioning thereof, a generalized and/or localized deformation, for example by means of one or more grooves 75 (see
In an embodiment illustrated in
In an embodiment illustrated in
This makes it possible to pivot the rear sole 13 of the boot 5 freely upwards; the boot 5 being held solely by the front retaining element 2. This pivoting movement is represented by the double arrow in
The control element or latch 45 may advantageously be disposed between the rear retaining element 5 and the heel block 4.
As mentioned above and illustrated in
In a first variant, the flexible connecting element 30 includes a guide 29 that slides in the slide of the rear retaining stirrup 7. The guide 29 stiffens the lateral holding: it can be produced from plastics material. In particular, this variant has the advantage of providing better lateral stability of the boot 5 when the ski is removed, when the front part of the boot is no longer held by the front retaining element 2.
In a second variant, the functioning of which is illustrated in
In a third variant illustrated in
In a fourth variant, the function of which is illustrated in
The touring-mode control latch 49 is dissociated from the front link 21′ but still provides the function of locking the front link 21′ for touring mode but now it makes it possible to slide the slide 47 from front to rear in order to release or lock the touring pivot assembly 50.
The touring pivot assembly 50 that was locked by the touring slide 47 can now pivot about two axes (82), see
Moreover, it is noted that, in
It should be noted that the embodiment in
In a fifth variant, the front link (here denoted 21′) and its latch (here denoted 26′) are secured together.
This variant of the front fixing element 2 therefore allows easy passage from “Telemark” mode to “touring” mode and vice versa without removing the boot, by means of a simple action by the tip of the pole on the element 49.
In
The boot 5 has been described here as comprising a front sole 11 and a rear sole 13, these two parts being separated by the projection 46. In the context of the present invention, the projection 46 may also be produced in the form of a channel or any other hollow provided in the sole of the boot, in which case the protection 46 is, in the context of the description, said to belong to the front sole 11, the edge of the rear part 15 of which it represents; the rear sole 13 is in this case represented by the part of the sole that extends from the projection 46 as far as the rear end of the sole (referred to as the heel 12).
The member 84 further comprises a mounting housing 86 delimited by three protrusions, namely a first middle protrusion 87, facing two lateral protrusions 88. The opposite faces of these protrusions have a rounded surface, whereas these protrusions are advantageously produced from a material having a certain elasticity. The mounting zone 86 can therefore accept, removably, blades 90 such as those sold by the name Dynafit®. For this purpose, these blades are connected, via tabs 91, to a transverse rod 92 able to be received in the housing 86.
When the user has to follow a tricky passage, in particular on a glacier, he inserts the rod 92 in the housing 86, in particular by lateral sliding. The blades can then pivot with respect to the flexible element, about the axis of the transverse rod 92, in the direction of the arrow F92. The user next engages his boot in the front retaining element 2, as described above, so that the blades cannot become disconnected in an unwanted fashion. If he wishes to remove these blades, the user first of all disengages his boot from the front retaining element and then extracts the rod 92 out of the housing 86.
Before engaging his boot in the front retaining element 2, the user pivots the heel block upwards about the axis A4, so as to access the housing 94. He next inserts the sensor in said housing: advantageously, the latter has walls suitable for removable fixing of the sensor 95, in particular by lateral sliding. It will be noted that this embodiment makes it possible to take advantage judiciously of the free space formed by the heel block. In addition, the top surface of this heel block protects the sensor 95 vis-á-vis any attack, in particular an unexpected blow from an edge. After use, the user disengages his boot from the front retaining element and then extracts the sensor 95 out of its housing 94.
The link is able to move between two functional positions. In the first position, illustrated in
In the second position, referred to as the locking position, illustrated in
In another embodiment, not illustrated by Figures, it is the heel 12 that is engaged by the rear fixing element 7.
The binding according to the invention has numerous advantages. It can be engaged and disengaged without the skier needing to bend down. In addition it is versatile, robust, reliable and lightweight.
Number | Date | Country | Kind |
---|---|---|---|
14 00165 | Jan 2014 | FR | national |
14 53499 | Apr 2014 | FR | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/FR2015/050171 | 1/26/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2015/110768 | 7/30/2015 | WO | A |
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19856143 | Jun 2000 | DE |
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Number | Date | Country | |
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20160346664 A1 | Dec 2016 | US |