A base for a ski boot and a ski boot incorporating such a base

Description

[0001] The present invention relates to a base for a Nordic ski boot and to a ski boot incorporating such base.

[0002] Although the word "boot" is used throughout this specification and in the claims, it should be interpreted broadly to include shoes and any form of footwear suitable for wear when taking part in skiing.

[0003] Ski boots are a specialized form of footwear that is used in skiing to provide a way of attaching the skier's feet to his/her skis via ski bindings. The ski boot should position the skier's body over the ski properly. The base of such a boot usually comprises rigid cleats or outsole elements that are used to fasten the boot to a ski binding. These outsole elements also comprise a walking surface for the boot. It is therefore important for the base of the boot, which incorporates the outsole elements, to provide strength and torsional stiffness yet still be sufficiently flexible for the intended form of skiing and for ease of walking. It is also important for the base to incorporate the outsole elements in a manner which retains them securely in a correctly orientated manner in order that the base will connect correct to a ski binding so that in use the boot is orientated correctly with respect to the ski. Conventionally, outsole elements are bonded to a previously formed sole and it is often difficult for the boot maker to judge exactly where to position the outsole elements relative to the sole to ensure that they are bonded in the correct position. The boot maker has to decide where the longitudinal axis of the sole lies and then locate and bond the outsole elements to the sole relative to this axis. Even a slight misalignment of the outsole elements can make connection to a ski binding difficult and significantly reduce the performance of the boot in use so that location of the outsole elements with precision is important.

[0004] EP 0815756 A1 discloses a base for a Nordic ski boot with the features according to the preamble of claim 1. This is a base for cross-country skiing, snowboarding or skating, the base comprising a sole, a toe outsole element attached to the sole, and an additional outsole element attached to the sole via the toe outsole element. The additional outsole element comprises a rigid bar adapted for attachment to a ski binding. The outsole elements are detachably connected to the sole by a plurality of fasteners such as screws that locate each in a hole defined by the sole in a predetermined position relative to a longitudinal axis of the sole. The fasteners extend through corresponding bores in the outsole elements

[0005] It is an aim of the present invention to overcome or substantially mitigate the aforementioned problem and to provide a base and a ski boot incorporating such a base to which the outsole elements have been attached with precision.

[0006] The invention is defined by a base for a Nordic ski boot according to claim 1. Preferred embodiments of the invention are defined in the dependent claims.

[0007] The toe outsole element may be positioned in a predetermined position relative to a longitudinal axis of the sole by two projections that are carried by one or the other of the sole and the toe outsole element and that locate in holes or cavities defined by the other.

[0008] Preferably, at least one of the projections is carried by the toe outsole element. Advantageously, both projections are carried by the toe outsole element and locate in holes or cavities defined by the sole.

[0009] Preferably also, toe and heel outsole elements are provided that are each provided with at least two projections that locate into holes or cavities defined by toe and heel portions of the sole respectively.

[0010] According to the invention, the projections are integrally formed with the toe outsole element. Alternatively, the projections are formed by injected pins that are secured to the toe outsole element and that locate into the cavities or holes defined by the sole. In a further variation, the projections are formed by injected pins that are secured to the sole and that locate into cavities or holes defined by the toe outsole element.

[0011] Preferably also, the holes or cavities are moulded into the sole during production.

[0012] Preferably also, the sole comprises a fiber-reinforced composite structure.

[0013] Preferably also, the fiber-reinforced composite structure comprises a laminate wherein a plurality of layers of woven fabric comprising warp carbon fibre yarns and weft carbon fibre yarns are encapsulated within a polymer matrix, which is preferably an epoxy-based resin.

[0014] Preferably also, the outsole elements comprise rigid elastomeric elements that are bonded to the sole via an adhesive.

[0015] Preferably also, the additional outsole element comprising the rigid bar is fastened to the sole at a forward end of said toe outsole element via at least two fasteners.

[0016] The outsole element comprising the rigid bar is fastened to the sole at the forward end of said toe outsole element, the fasteners penetrating through the toe outsole element into the sole.

[0017] Preferably also, the fasteners penetrate through the sole.

[0018] Preferably also, the base comprises a heel portion integrally formed with an upstanding portion that is adapted to wrap up around the back and sides of the heel of the ski boot.

[0019] Preferably also, the upstanding portion is adapted for connection to an ankle cuff.

[0020] Preferably also, the heel portion of the sole defines an interior cavity. Advantageously, a resilient pad is secured within the cavity to provide heel lift and to cushion the foot during use.

[0021] Preferably, the fastener is a releasable fastener allowing the toe outsole element to be attached to or detached from the sole as desired.

[0022] According to a further aspect of the present invention there is provided a ski boot incorporating a base in accordance with the present invention.

[0023] Preferably, the ski boot has a flexible fabric upper.

[0024] Preferably also, the base comprises a heel portion integrally formed with the sole, which heel portion is wrapped up around the back and sides of the heel of the ski boot.

[0025] Preferably also, the heel portion is connected to an ankle cuff in a hinged manner.

[0026] The various aspects of present invention will now be described by way of example with reference to the accompanying drawings, in which:

Fig. 1

is a perspective view from above and one side of a base for a ski boot in accordance with the first aspect of the present invention;

Fig. 2

is a perspective view from below and said one side of the base shown in Fig. 1;

Fig. 3

is an exploded view of the base shown in Figs. 1 and 2 along with a cuff for attachment to the base;

Figs. 4a and 4b

are schematic representations, to an enlarged scale, of two layers of a laminate used to form the base shown in Figs. 1 to 3 and illustrating the manner in which the layers are orientated relative to a longitudinal axis of the base;

Fig. 5

is a side view of a ski boot in accordance with the second aspect of the present invention that incorporates a base as shown in Figs. 1 to 3.

[0027] Figs. 1 to 3 of the drawings show a base 1 adapted for use on a Nordic ski boot and an example of such a boot 2 having an upper 3 is shown in Fig. 5.

[0028] The upper 3 is configured to encase a wearer's foot and is equipped with appropriate conventional fastening arrangements which will not be described here as the present invention is primarily concerned with the base 1 of the boot 2. The base 1 comprises a one-piece sole 4 defining heel and toe portions 5 and 6 respectively and a mid-section 7 that is located between the heel and toe portions 5 and 6 in a position anatomically beneath the location of the metatarsal bones and the plantar arch of a person wearing the ski boot 2. The heel and toe portions 5 and 6 are adapted to be secured to one or more rigid elastomeric outsole elements 8, 9, 10 to form a base 1 that can then be connected to the upper 3 during manufacture of the boot 2. Generally, therefore, the heel and toe portions 5 and 6 of the sole 4 lie adjacent respective heel and toe outsole elements 8 and 9. In the illustrated embodiment, the heel and toe outsole elements 8 and 9 respectively are permanently bonded to the heel and toe portions 5 and 6 of the sole 4 to form a base 1 of unitary construction that can then be secured to the upper 3. However, the outsole element 10 comprises a rigid bar 11 and is fastened in a releasable manner via releasable fasteners 12 to the sole 4 at a forward end of the toe outsole element 9. The fasteners 12 therefore penetrate through the toe outsole element 9 into the sole 4. Preferably, the fasteners 12 also penetrate through the sole 4 so that they can be unfastened and the outsole element 10 detached and replaced, if necessary..

[0029] The outsole elements 8, 9, 10 locate between the sole 4 and a ski binding and at least one of them, namely element 10 in the present example, is adapted for attachment to a Nordic ski binding. In addition, the heel and toe outsole elements 8 and 9 provide walking surfaces that contact the ground when the boot 2 is not connected to a ski binding.

[0030] The construction of the base 1 will now be described in more detail.

[0031] The sole 4 has a fiber-reinforced composite structure wherein a majority of the fibers in the mid-section 7 of the sole 4 are angled at an acute angle with respect to a longitudinal axis L of the sole 4. In the present example this is achieved by manufacturing the sole 4 in the form of a laminate wherein a plurality of layers 13 of woven fabric comprising warp yarns 14 and weft yarns 15 are encapsulated within a polymer matrix. Preferably the warp yarns 14 and the weft yarns 15 are both carbon-fiber yarns and the polymer matrix is preferably an epoxy-based resin. The sole 4 is therefore moulded in a known manner, for example using a vacuum bag moulding process wherein a plurality of polymer-coated fabric layers 13 are laid up one on top of the other over a rigid mould to which suction is applied and the polymer is cured using heat and pressure applied via a flexible membrane or bag. The individual fibres of the fabric layers 13, which generally align along the longitudinal axis of the yarn in which they are incorporated, are therefore encapsulated by the polymer matrix so that the resulting moulded sole 4 has strength yet retains flexibility.

[0032] Preferably, some of the fabric layers 13, such as the layer shown in Fig. 4a, are arranged so that the fibers forming either the warp yarns 14 (as in Fig. 4a) or the weft yarns 15 in the mid-section 7 of the sole 7 are substantially aligned with the longitudinal axis L of the sole. However, the majority of the fabric layers 13, such as the layer shown in Fig. 4b, are arranged so that the warp yarns 14 and the weft yarns 15 are angled at an acute angle with respect to the longitudinal axis L of the sole 4, typically at ±45° ± 20° to the axis L.

[0033] In addition to the laminate structure of the sole 4 described above, the sole 4 is preferably moulded with a heel portion 5 that comprises upstanding portions 16 which wrap up around the back and sides of the heel of the ski boot 3. The upstanding portions 16 at the sides of the sole 4 are provided with moulded-in holes 17 to enable an ankle cuff or part of an ankle cuff 18, as shown in Fig. 3 to be connected to the sole 4, for example by rivets 19, in a hinged manner. The part of the cuff 18 shown in Fig. 3 may be made of woven carbon fiber material similar to the sole 4, the rest of the cuff 18 being made from other fabric and comprising a fastener as shown in Fig. 5. The upstanding portion at the rear of the sole 4 forms a heel counter that provides a direct transfer of load from the cuff 18 of the boot 2 into the base 1 of the boot, which is a significant advantage. The three-dimensional shape of the heel portion 5 of the sole 4 also increases the torsional stiffness of the boot 2 and increases its bending or flexural stiffness, which increases the performance of the boot 2 in use as indicated above.

[0034] In addition to the foregoing, the heel portion 5 of the sole 4 is moulded to define an interior cavity 20 into which is bonded a resilient pad 21. The pad 21 is dimensioned to provide a predetermined heel lift and made of a suitable material that will cushion the foot during use.

[0035] After moulding of the sole 4 as described above, the outsole elements 8 and 9 are bonded thereto to form the base 1 that can then be connected to a boot upper 2, which is preferably a flexible fabric upper, in a conventional way. The outsole elements 8 and 9 are preferably made of a resilient material, such as rubber or a similar synthetic material, so as to cushion the foot during skiing. When this material is softer it gives a smoother, softer feeling in the ice conditions. It is also more comfortable during walking before and after skiing, especially on hard surfaces like cement and asphalt. If this material is harder it gives a more stable, direct, rigid contact platform that is an advantage in unstable softer snow conditions.

[0036] It is important for the outsole elements 8, 9 and 10 to be orientated correctly with regard to the longitudinal axis L of the sole 4 so that the boot can be properly attached to a ski binding and sit in the correct alignment with regard to the ski. This is often a difficult procedure and slight misalignment of the outsole elements 8 and 9 can seriously affect the ski binding attachment capability of the resulting boot and the ski alignment with respect to the boot.

[0037] In order to facilitate the correct alignment of the outsole elements 8, 9 and 10, during manufacture the sole 4 is moulded with three pairs of cavities or holes 22, 23 and 24 in addition to the through-hole 17 for attachment of the cuff 18. However, the holes 17, 22, 23 and 24 could be drilled or punched through the sole 4 after moulding, possibly in predetermined positions marked on the sole 4 during the moulding process by indentations or other markers. The pairs of cavities or holes 22, 23 and 24 are precisely located in the sole 4 with respect to the longitudinal axis L. The first pair 22 is located respectively towards the front and rear ends of the toe portion 6 of the sole 4 whereas the second pair 23 is located respectively towards the front and rear ends of the heel portion 5 of the sole 4. Both of the pairs of cavities or holes 22, 23 align along the longitudinal axis L of the sole 4 and are used to locate the outsole elements 8 and 9 in the correct positions on the sole 4. To this end, each of the outsole elements 8 and 9 is provided with a pair of projections, 25 and 26 respectively that can be fitted into the respective pair of cavities or holes 22, 23 during attachment of the elements 8 and 9 to the sole 4. This ensures that the outsole elements 8 and 9 are positioned and orientated correctly with regard to the sole 4. The projections 25 and 26 may be unitary with the moulded material forming the rest of the elements 8 and 9 or may comprise injected pins, rivets, fasteners, t-nuts, screws or other secure alignment fastening means that can be located into the cavities or holes 22 and 23. In some embodiments, either or both of the outsole elements 8 and 9 may be detachably connected to a structural portion of the sole 4 by at least one fastener that locates in a hole or cavity 22, 23 defined by the sole 4 in a predetermined position relative to a longitudinal axis L of the sole 4. The fastener may also be a removable fastener allowing the outsole element to be attached to or detached from the sole as desired.

[0038] It will be appreciated that although the illustrated embodiment shows the projections 25 and 26 moulded into the outsole elements 8 and 9 and the holes or cavities 22 and 23 formed in the sole 4, in some embodiments the projections could be carried by the sole 4 to locate in holes or cavities formed in the outsole elements 8 and 9. Such projections may be moulded into the sole 4 or comprise injected pins, rivets, fasteners, t-nuts, screws or other secure alignment fastening means that are fastened to the sole 4. It will also be appreciated that the projections of each pair need not both be carried by the sole or by an outsole element. In some cases, a projection and a hole or cavity may be carried by both the sole 4 and the outsole element.

[0039] In the case of the pair of holes 24, these are located at the forward end of the sole 4 on either side of the longitudinal axis L and accommodate the fasteners 12 used to secure the outsole element 10 that comprises the rigid bar 11. These holes 24 are therefore through holes so that the fasteners 12 can penetrate through the sole 4 rather than being cavities or blind holes, which is a possibility with the pairs of cavities or holes 22 and 23. In the present invention the outsole element 10 sits beneath the toe outsole element 9 and in order to align the two elements 10 and 9 together, a pair of projections 27 on one, in this case the element 10, that locate in cavities or holes (not shown) in the other is also provided.

[0040] Hence, the outsole elements 8, 9 and 10 and the sole 4 can all be precisely aligned together relative to the centreline of the medial to lateral balance point of a ski. In particular, the outsole elements 8, 9 and 10 and the sole 4 can all be precisely aligned together in a forward and aft manner to form a base 1 that is individually adapted for a particularly sized upper to achieve a particular skier's optimal forward, aft balance point, side-to-side alignment and ideal power transfer zone and pivot point. Hence, a ski boot 2 can be manufactured to a skier's precise requirements.

Claims

1. A base (1) for a Nordic ski boot (2)

1.1 comprising a sole (4) and an outsole element (10) comprising a rigid bar (11), the rigid bar (11) being adapted for attachment to a Nordic ski binding,

1.2 the outsole element (10) being detachably connected to a structural portion of the sole (4) by at least one fastener (12) that locates in a hole (24) defined by the sole (4) in a predetermined position relative to a longitudinal axis (L) of the sole (4),

1.3 a toe outsole element (9) which is located in the toe portion (6) of the sole (4),

1.4 wherein the at least one fastener (12) passes through through-holes in the outsole (10) and toe outsole (9) elements,
and wherein

1.5 the hole (24) defined by the sole (4) is a through-hole, and characterised in that

1.6 the sole (4) is made from a fiber-reinforced composite structure, and in that

1.7 a pair of projections (27) is integrally formed with one of the toe outsole element (9) and the outsole element (10) and locate in holes or cavities in the other of the toe outsole element (9) and the outsole element (10) to align the outsole element (10) and the toe outsole element (9) together.

2. A base (1) as claimed in Claim 1, wherein the fastener (12) is a releasable fastener allowing the outsole element (10) to be attached to or detached from the sole (4) as desired.

3. A base (1) as claimed in either of claims 1 or 2, wherein the sole (4) is a one piece sole (4).

4. A base (1) as claimed in any one of the previous claims, wherein outsole element (10) is secured directly to the sole (4).

5. A base (1) as claimed in any one of the previous claims, wherein the majority of fibers in a mid-section (7) of the fiber-reinforced sole (4) are angled at an acute angle with respect to the longitudinal axis (L) of the sole (4).

6. A base (1) as claimed in any one of the previous claims, wherein the fiber-reinforced sole (4) has a laminate form, wherein a plurality of layers (13) of woven fabric comprising warp yarns (14) and weft yarns (15) are encapsulated within a polymer matrix.

7. A base (1) as claimed in claim 6, wherein the warp and weft yarns (14, 15) are carbon-fiber yarns and the polymer matrix is preferably an epoxy-based resin.

8. A base (1) as claimed in either of claims 6 or 7, wherein the majority of the fabric layers (13) are arranged so that the warp and weft yarns (14, 15) are angled at an acute angle with respect to the longitudinal axis (L) of the sole (4).

9. A base (1) as claimed in claim 8, wherein the acute angle is at ± 45° to the longitudinal axis (L) of the sole (4), with a range of ± 20° to this.

10. A base (1) as claimed in any one of the previous claims, wherein a pair of holes (24) is provided either side of the longitudinal axis (L) of the sole (4) for accommodating the fasteners (12) used to secure the outsole element (10).

11. A base (1) as claimed in claim 10, wherein each of the pair of holes (24) is a through hole, so that the fasteners (12) penetrate through the sole (4).

12. A ski boot (2) incorporating a base (1) as claimed in any one of the previous claims.

13. A ski boot (2) as claimed in Claim 12, wherein the base (1) comprises a heel portion integrally formed with the sole (4), which heel portion (16) is wrapped up around the back and sides of the heel of the ski boot (2).

Ansprüche

1. Unterteil (1) für einen nordischen Skischuh (2), das Folgendes umfasst:

1.1. eine Sohle (4) und ein Laufsohlenelement (10) mit einer starren Stange (11), wobei die starre Stange (11) zur Anbringung an einer nordischen Skibindung angepasst ist,

1.2. wobei das Laufsohlenelement (10) lösbar mit einem Strukturabschnitt der Sohle (4) durch mindestens ein Befestigungselement (12) verbunden ist, das in einem von der Sohle (4) in einer vorgegebenen Position relativ zu einer Längsachse (L) der Sohle (4) definierten Loch (24) angeordnet ist, und

1.3. ein Zehenlaufsohlenelement (9), das im Zehenabschnitt (6) der Sohle (4) angeordnet ist,

1.4. wobei das mindestens eine Befestigungselement (12) durch Durchgangslöcher des Laufsohlenelements (10) und des Zehenlaufsohlenelements (9) führt,

1.5. und wobei das von der Sohle (4) definierte Loch (24) ein Durchgangsloch ist, dadurch gekennzeichnet, dass

1.6. die Sohle (4) aus einer faserverstärkten Verbundstruktur hergestellt ist, und dadurch, dass

1.7. zwei Vorsprünge (27) einteilig mit einem aus Zehenlaufsohlenelement (9) und Laufsohlenelement (10) ausgebildet und in Löchern oder Ausnehmungen des anderen aus Zehenlaufsohlenelement (9) und Laufsohlenelement (10) angeordnet sind, um das Laufsohlenelement (10) und das Zehenlaufsohlenelement (9) aufeinander auszurichten.

2. Unterteil (1) nach Anspruch 1, wobei das Befestigungselement (12) ein lösbares Befestigungselement ist, mit dem das Laufsohlenelement (10) beliebig an der Sohle (4) angebracht oder von der Sohle (4) gelöst werden kann.

3. Unterteil (1) nach Anspruch 1 oder 2, wobei die Sohle (4) eine einteilige Sohle (4) ist.

4. Unterteil (1) nach einem der vorherigen Ansprüche, wobei das Laufsohlenelement (10) unmittelbar an der Sohle (4) befestigt ist.

5. Unterteil (1) nach einem der vorherigen Ansprüche, wobei die Fasern in einem mittleren Bereich (7) der faserverstärkten Sohle (4) zum Großteil in einem spitzen Winkel zur Längsachse (L) der Sohle (4) stehen.

6. Unterteil (1) nach einem der vorherigen Ansprüche, wobei die faserverstärkte Sohle (4) einen Schichtaufbau aufweist, bei dem mehrere Schichten (13) aus Gewebe mit Kettgarnen (14) und Schussgarnen (15) in einer Polymermatrix eingekapselt sind.

7. Unterteil (1) nach Anspruch 6, wobei die Kett- und Schussgarne (14, 15) Kohlefasergarne sind und die Polymermatrix vorzugsweise ein epoxidbasiertes Harz ist.

8. Unterteil (1) nach Anspruch 6 oder 7, wobei die Gewebeschichten (13) zum Großteil so angeordnet ist, dass die Kett- und Schussgarne (14, 15) in einem spitzen Winkel zur Längsachse (L) der Sohle (4) stehen.

9. Unterteil (1) nach Anspruch 8, wobei der spitze Winkel bei ± 45° zur Längsachse (L) der Sohle (4) mit einer Abweichung von ± 20° liegt.

10. Unterteil (1) nach einem der vorherigen Ansprüche, wobei zwei Löcher (24) zu beiden Seiten der Längsachse (L) der Sohle (4) vorgesehen sind, um die zur Befestigung des Laufsohlenelements (10) verwendeten Befestigungselemente (12) aufzunehmen.

11. Unterteil (1) nach Anspruch 10, wobei jedes der beiden Löcher (24) ein Durchgangsloch ist, so dass die Befestigungselemente (12) die Sohle (4) durchdringen.

12. Skischuh (2) mit einem Unterteil (1) nach einem der vorherigen Ansprüche.

13. Skischuh (2) nach Anspruch 12, wobei das Unterteil (1) einen einteilig mit der Sohle (4) ausgebildeten Fersenabschnitt umfasst, wobei der Fersenabschnitt (16) hinten und seitlich die Ferse des Skischuhs (2) umgreift.

Revendications

1. Base (1) pour une chaussure de ski nordique (2), comprenant :

1.1. une semelle (4) et un élément de semelle extérieure (10) comprenant une barre rigide (11), la barre rigide (11) étant adaptée pour être attachée à une fixation de ski nordique,

1.2. l'élément de semelle extérieure (10) étant relié de manière amovible à une partie structurelle de la semelle (4) par au moins une attache (12) qui se place dans un trou (24) défini par la semelle (4) dans une position prédéterminée par rapport à un axe longitudinal (L) de la semelle (4) ; et

1.3. un élément de semelle extérieure d'orteil (9) qui est situé dans la partie d'orteil (6) de la semelle (4),

1.4. ladite au moins une attache (12) passant à travers des trous traversants dans l'élément de semelle extérieure (10) et l'élément de semelle extérieure d'orteil (9),

1.5. le trou (24) défini par la semelle (4) étant un trou traversant, caractérisée en ce que

1.6. la semelle (4) est fabriquée à partir d'une structure composite renforcée de fibres, et en ce que

1.7. deux projections (27) sont formées d'un seul tenant avec l'un parmi l'élément de semelle extérieure d'orteil (9) et l'élément de semelle extérieure (10) et se placent dans des trous ou des cavités dans l'autre parmi l'élément de semelle extérieure d'orteil (9) et l'élément de semelle extérieure (10) pour aligner l'élément de semelle extérieure (10) et l'élément de semelle extérieure d'orteil (9) ensemble.

2. Base (1) selon la revendication 1, dans laquelle l'attache (12) est une attache libérable permettant à l'élément de semelle extérieure (10) d'être attaché à la semelle (4) ou détaché de la semelle (4) selon le besoin.

3. Base (1) selon la revendication 1 ou 2, dans laquelle la semelle (4) est une semelle (4) monobloc.

4. Base (1) selon l'une quelconque des revendications précédentes, dans laquelle l'élément de semelle extérieure (10) est fixée directement à la semelle (4).

5. Base (1) selon l'une quelconque des revendications précédentes, dans laquelle les fibres dans une zone centrale (7) de la semelle renforcée de fibres (4) forment en grande partie un angle aigu par rapport à l'axe longitudinal (L) de la semelle (4).

6. Base (1) selon l'une quelconque des revendications précédentes, dans laquelle la semelle renforcée de fibres (4) présente une forme stratifiée, dans laquelle plusieurs couches (13) de tissu tissé comprenant des fils de chaîne (14) et des fils de trame (15) sont encapsulées dans une matrice polymère.

7. Base (1) selon la revendication 6, dans laquelle les fils de chaîne (14) et les fils de trame (15) sont des fils en fibres de carbone et la matrice polymère est de préférence une résine à base d'époxyde.

8. Base (1) selon la revendication 6 ou 7, dans laquelle les couches de tissu (13) sont en grande partie disposées de sorte que les fils de chaîne (14) et les fils de trame (15) forment un angle aigu par rapport à l'axe longitudinal (L) de la semelle (4).

9. Base (1) selon la revendication 8, dans laquelle l'angle aigu est de ± 45° par rapport à l'axe longitudinal (L) de la semelle (4), avec une gamme de ± 20° par rapport à cette valeur.

10. Base (1) selon l'une quelconque des revendications précédentes, dans laquelle deux trous (24) sont fournis de part et d'autre de l'axe longitudinal (L) de la semelle (4) pour recevoir les attaches (12) utilisées pour fixer l'élément de semelle extérieure (10).

11. Base (1) selon la revendication 10, dans laquelle chacun des deux trous (24) est un trou traversant, de sorte que les attaches (12) pénètrent à travers la semelle (4).

12. Chaussure de ski (2) incorporant une base (1) selon l'une quelconque des revendications précédentes.

13. Chaussure de ski (2) selon la revendication 12, dans laquelle la base (1) comprend une partie de talon formée d'un seul tenant avec la semelle (4), la partie de talon (16) enveloppant l'arrière et les côtés du talon de la chaussure de ski (2).

Drawing