EP2989918A1 - Ski boot with coated pin holder - Google Patents

Abstract

Ski boot with a pin receptacle (1) as part of a ski binding with a pin (20), the pin (20) engaging the ski mount with a ski for alpine skiing and / or touring into the pin receptacle (1), wherein the pin receptacle (1) comprises a pin receiving opening (2) adapted to receive a pin (20), at least the pin receiving opening (2) having a wear protection coating (6), and wherein the Coating material is titanium nitride (TiN).

Description

The invention relates to a ski boot with an integrated pin-receiving, can engage in the pins of a ski binding to safely connect the ski boot with a ski. The binding can be a combined touring and downhill binding or a pure downhill binding or a pure touring binding. The pin receptacle is preferably formed from a metal and has a wear-protection coating, wherein the coating material is titanium nitride (TiN).

The EP 0 199 098 B1 relates to a ski binding for touring skiing with tensioning parts, which engage for securing the ski boot on the ski in recesses formed laterally on or in the ski boot, respectively in the sole of the ski boot. The tension members may hold the front end or toe end of the ski boot such that the ski boot is held in a downhill mode on the ski and may be pivoted in a walking mode relative to the ski. The pivot axis is formed by the clamping parts and the openings in the ski boot. The clamping parts whose free ends are conical or hemispherical in shape, engage substantially only with these free ends in the conical openings of a bolt, which is integrated in the ski boot sole or can be retrofitted in the ski boot sole.

To displace snow from the openings, the clamping parts on their outer sides on helical grooves. When large forces occur, for example due to downhill impacts, the edges of the grooves may injure the surface of the inside of the openings. The conical or semicircular interventions of the clamping parts in the conical openings can lead to an unwanted, premature release of the ski binding at these forces, since even with forces parallel to or against the direction of travel, this immediately the clamping parts along the conical surface of the openings from the openings can displace.

There is therefore a need for a ski boot with a stud for a ski binding pin, the seat being shaped to assist in sliding the stud into a locking position within the seat due to the shaping Skiboot securely binds to skis even when beating downhill and has a coating that is resistant to damage.

This object is solved by the subject matter of claim 1. Further embodiments of the invention are the subject of the dependent claims. These can be combined in a technologically meaningful manner, and characterize and specify, in particular in connection with the drawing, the invention additionally.

A first aspect of the invention relates to a ski boot having a pin receptacle for a pin or pin, the pin engaging the pin receptacle for connecting the ski boot to a ski for alpine skiing and / or touring. The pin holder is connected to a base plate, which is connected to the ski boot or integrated into the ski boot, respectively the ski boot sole.

The base plate may comprise two or more pin receptacles and be permanently attached to the ski boot. Inextricable means that base plate and ski boot can not be separated from each other without destroying each other. The base plate may be arranged in / on the ski boot, in particular in the region of the toes and / or the footpad and / or in the region of the heel of the ski boot. If a ski boot comprises a first base plate in the area of the toes or of the foot and a second base plate in the area of the heel, both base plates are preferably separate base plates which do not touch at any point. Alternatively, the first and second base plates may be connected to each other via a web or skeleton construction or via a center plate. In this case, the base plates of a first material, for example aluminum, be formed, the web of a, for example, elastically deformable second material.

Each of the pin receivers includes a receiving aperture that is adapted to receive a pin. In this case, at least the receiving opening at its opening area and / or on the entire inner surface on a wear-protection coating.

According to the invention, the coating material of the wear-protection coating is titanium nitride (TiN).

Generic ski bindings in which the ski boot in the ski binding, which is preferably a combined downhill and touring ski binding, is held by means of binding-side pins in shoe-side pin receptacles have been known to the skilled person for years. The ski boot tip is held by the pins so that they can be pivoted to go relative to the ski about an axis transverse to the ski surface.

The heel end of the ski boot may also have one or more pin receptacles for corresponding pins, but the heel holder may also be an automaton or any other heel holder.

The pin receiving opening has an outer rounded edge portion forming the entry opening into the pin receptacle, an adjoining cylindrical center portion which substantially positively receives the pin, and a tapered or tapered portion thereacrossing the pin leads his way into the pin recording and centered and prevents tilting of the pin.

The pin may preferably be formed accordingly, that is, it may have a cylindrical portion and an adjoining conical or conical tip. The pin may be formed as a sleeve with a through hole to displace accumulated in the pin receiving opening snow.

The rounded portions of the edge area of the pin receptacle have circumferentially varying diameters. In this case, the radius of a lower and / or rear edge region in the skiing direction can be smaller than the edge region of an upper and / or front edge region in the skiing direction.

The small radius of the edge region may have a value of, for example, 0.2 mm to 0.4 mm, preferably it may be between 0.25 mm and 0.35 mm or 0.3 mm plus / minus of manufacturing tolerances. In this case, the small radius over the circular section of the pin receptacle formed by it need not be constant, but may vary in sections or continuously.

The large radius of the edge area can be much larger than the small radius, without being limited to a certain value. Otherwise, what is said about the small radius also applies to the large radius.

The cylindrical surface is preferably an absolute cylindrical surface with a constant diameter and a narrow tolerance. The diameter of the cylindrical portion of the receptacle may be, for example 5.1mm, the allowable tolerance may be ± 0.02mm.

Simply by choosing an absolutely cylindrical surface, a very good positive connection of the pin in the receptacle is achieved, if the pin lies with its cylindrical outer side in the area of the absolutely cylindrical surface of the pin receiving opening. This form-fitting has a positive effect on impacts during the downhill, as for example when tilting the side of the ski boot restoring force rather attacks because the pin in the recording can not tilt or pivot in, against or transverse to the direction of travel.

In the areas of pin recording with the small radius advantageously the axial length of the cylindrical surface is extended, so that the pin is surrounded over a longer straight distance from the absolutely cylindrical surface. That is, the total area of the positive connection between the pin and the cylindrical surface of the receptacle is larger. As a result, the pin is more reliably held in the pin receptacle, for example, in a shoe tip, which in turn a safer grip of the ski boot is achieved in the binding in a side impact, and a higher restoring force.

The length of the cylindrical surface between the small radius of the peripheral portion of the receiving hole and the tapered portion may be 2.00mm or more. So far, such a length is in the range of 1.0mm to 1.2mm, the recordings or inserts known ski bindings also usually do not include an absolutely cylindrical area. An absolutely cylindrical region is understood to mean a region of an inner wall of a cylinder which has a multiplicity of lines extending parallel to a rotation axis or central axis of the cylinder, which in their entirety form the inner wall of the cylinder. For ease of insertion and centering of the pins or pins, slightly tapered inner walls are often preferred, but this is negative for the force of positive engagement when the pin has a cylindrical outer surface.

The combination of absolutely cylindrical surface, very close tolerance and enlargement of the cylindrical surface ensures a secure connection of the ski boot on the ski binding with the ski, which in particular a lateral tilting of the ski boot, for example, side kick, an increased restoring force opposes, what a too early release of the binding during side impact and thus prevent injury from consequent falls.

The coating material of the wear-protection coating may have a thickness of less than or equal to 4 microns. It preferably has an average thickness of less than or equal to 2.5 μm. The coating material may prevent the binding (s), the edges of the insert or the pin receptacle from being scratched and / or disengaged several times, thereby causing the ski boot to show visible visual signs of wear to anyone. Furthermore, the material of the wear-protection coating can be chosen so that the color of the wear-protection coating can be used in addition to the technical advantages as a design element.

The pin receptacles can in particular be molded together with the base plate. That is, both parts are cast in a mold in one operation, for example, in a casting process, particularly in a metal casting process such as aluminum casting. The plate, consisting of baseplate and pinmounts, is prepared to be cast into the ski boot sole below the toe or bale. Alternatively, the plate is prepared to be poured below the heel in the ski boot sole.

The wear-protective coating can only be present within the pin receptacle and the visible environment of the pin receptacle plus an optical safety margin for the assembly tolerance of the plate in the ski boot sole; alternatively, the whole plate can be partially or totally coated after completion with the coating material be coated.

The finished plate is then poured into the ski boot sole, at least in the area of the base plate, and the pin receptacles protrude at least partially beyond the outside of the sole and / or behind the outside of the sole.

The value of an installation angle of a center plane of the plate in the sole to the standard normal can be between 7.5 ° and 10.5 ° in order to achieve optimum release values of the bond.

An installation height of the pin-receiving axis to the sole bottom perpendicular to a pin-receiving center may have a value between 13.3mm and 14.1mm.

Another aspect of the invention relates to a panel as part of a ski binding. The plate can be integrated into a ski boot sole, for example, in the manufacture of the ski boot sole are poured into this.

The plate comprises a base plate and at least one preferably at least two pin receptacles connected to the base plate, wherein the base plate together with the pin receptacle (s) is preformed in a metal casting process, preferably of aluminum.

The base plate may have a maximum width that substantially corresponds to the width of the ski boot or the ski boot sole in the region of the base plate, and a maximum length in the longitudinal direction of the ski boot, which is smaller than the maximum width.

The pin recordings can pass at their axial ski boot center end facing in an arc in the base plate in order to conduct forces occurring at the pin recording optimally in the base plate can.

The pin recordings may be the pin recordings described above in connection with the ski boot, with one, several or all of the features detailed therein. In particular, the pin receptacles may have a titanium nitride wear protection coating.

Advantageous features are also described in the subclaims and the combinations of the subclaims.

The features described below in aspects also form the invention individually and also advantageously in each feature combination. Insofar as reference signs are used in the features marked as aspects, these are the Reference numeral of an embodiment, which will be described below. The aspects are not limited to the embodiment, although the embodiment also shows preferred design possibilities for the features described under the aspects.

Aspect 1 # Ski boot having a pin receptacle (1) for a shoe holding pin of a board binding engagement in use in the pin receptacle (1) to connect the ski boot with a touring ski, piste ski, freeride ski, snowboard or the like gliding board, preferably to rotationally connect a transverse axis (Y),
wherein the pin receptacle (1) comprises a pin receiving opening (2) adapted to receive the pin (20), and
at least the pin receiving opening (2) has a wear-protection coating (6) made of a coating material,
characterized in that
the coating material is titanium nitride (TiN).

• einen abgerundeten Öffnungsrand (3) mit einem Rundungsradius (R_3a, R_3b, R_3c, R_3d) und einen sich daran anschließenden zylindrischen Bereich (4),
• sowie vorzugsweise einen sich an der vom Öffnungsrand abgewandten Seite des zylindrischen Bereichs (4) an den zylindrischen Bereich (4) anschließenden Verjüngungsbereich (5), der sich vom Öffnungsrand (3) wegweisend verjüngt, vorzugsweise kegelförmig.

Aspect 2 # ski boot according to aspect 1, wherein the pin receiving opening (2) comprises:

• a rounded opening edge (3) with a radius of curvature (R _3a , R _3b , R _3c , R _3d ) and an adjoining cylindrical portion (4),
• and preferably a tapering region (5) adjoining the cylindrical region (4) on the side remote from the edge of the opening of the cylindrical region (4) and tapering away from the opening edge (3), preferably conically.

Aspect 3 ski boot according to one of the preceding aspects, wherein the pin-receiving opening (2) has an outer opening edge (3) and an inwardly adjoining cylindrical portion (4) over at least 1.5 mm, preferably at least 1.7 mm, is cylindrical in order to provide a firm grip in engagement with the pin.

Aspect ski boot according to one of the preceding aspects, wherein the pin-receiving opening (2) has a rounded opening edge (3) with a radius of curvature (R _3a , R _3b , R _3c , R _3d ) which varies in the circumferential direction around the peripheral edge.

Aspect 5 # ski boot according to one of the preceding aspects, wherein the pin receiving opening (2) has a rounded opening edge (3) with a radius of curvature (R _3a , R _3b , R _3c , R _3d ), which in a first peripheral portion (3a) of the opening edge (3) has a first, in the first peripheral portion (3a) preferably constant value (R _3a ) and in another, second peripheral portion (3b) of the opening edge (3) a second, in the second peripheral portion (3b) preferably constant value (R _3b ) different from the first value (R _3a ).

Aspect 6 # Ski boot according to one of the preceding aspects, wherein the pin receiving opening (2) has a rounded opening edge (3) with two or more peripheral portions (3a, 3b, 3c, 3d) each having a different radius of curvature (R _3a , R _3b , R _3c , R _3d ).

Aspect 7 # Ski boot according to one of the preceding aspects, wherein the pin-receiving opening (2) has a rounded opening edge (3) having a greater radius of curvature in a peripheral portion facing the axial ski end, as in a lower peripheral portion.

Aspect 8 # ski boot according to one of the preceding aspects, wherein the coating material (6) has a maximum, preferably uniform thickness of less than or equal to 4 microns, preferably of less than or equal to 2.5 microns.

Aspect 9 # Ski boot according to one of the preceding aspects, wherein the pin-receiving opening (2) has an opening edge (3) and then a cylindrical portion (4), wherein the cylindrical portion (4) over its circumference everywhere is the same length or preferably having axial extensions of different lengths.

The ski boot according to one of the preceding aspects, wherein the pin-receiving opening (2) has an opening edge (3) and then a cylindrical portion (4), and the opening edge (3) in a lower peripheral edge portion with a radius of curvature of at most 0 , 5 mm, preferably at most 0.4 mm or 0.3 mm, merges into the cylindrical region (4).

Aspect 11 # Ski boot according to one of the preceding aspects, wherein the pin receptacle (1) together with a base structure (11), preferably a base plate (11), formed in one piece or firmly joined in a process of Urformung.

The ski boot according to one of the preceding aspects, wherein the pin receptacle (1) is arranged on a base structure (11), preferably a base plate (11), preferably protrudes from the base structure (11), and the base structure (11) embedded in a sole (30) of the ski boot, preferably cast in, and the pin receptacle (1) opens with an opening edge (3) on an outer side of the sole (30), preferably on one side of the ski boot, the opening edge (3 ) optionally at least partially over the outside of the sole (30) protrudes and / or at least partially behind the outside of the sole (30) protrudes.

The ski boot according to one of the preceding aspects, wherein the pin receptacle (1) is arranged on a plate-shaped base structure (11), preferably protrudes from the base structure (11), the base structure (11) has a median plane and in a sole (FIG. 30) of the ski boot is embedded, preferably cast in, in such a way that the center plane is at an installation angle (α) from the angular range of 6 ° to 12 °, preferably 7.5 ° to 10.5 °, particularly preferably 9 ° ± 1 °, extends to the standard (SN) of the ski boot.

Aspect 14 # ski boot according to one of the preceding aspects, wherein a central axis (Y) of the pin receptacle (1) in the region of an opening edge (3) of the pin receptacle (1) to a footprint of the ski boot (bottom of the sole) a vertical Distance of at least 13 mm and at most 15 mm, preferably at least 13.2 mm and at most 14.1 mm.

Aspect 15 # Ski boot according to one of the preceding aspects, wherein the pin receptacle (1) is arranged in a toe or ball area of the sole (30) of the ski boot and opens at a side edge of the sole (30) to form an opening edge (3) and wherein the ski boot on the opposite opposite side edge has another pin receptacle (1), which corresponds to one or more of the preceding aspects.

Aspect 16 # pin receiving structure for integration into a ski boot or ski boot sole, the pin receiving structure (10) comprising a base structure (11), preferably base plate (11), and one or more pin receptacles (1) fixedly connected to the base plate (11),
wherein the base structure (11) is joined together with the pin receptacle or receptacles (1) or is preferably shaped together in a metal casting process, preferably of aluminum,
and wherein the one or more pin receptacles (1) is or are coated with titanium nitride (TiN) at least in the region of a respective pin receptacle opening (2), preferably entirely.

Aspect 17 # pin receiving structure according to the preceding aspect, wherein the base structure (11) has a maximum width which substantially corresponds to the width of the ski boot or the ski boot sole (30) transverse to the skiing direction (X), and a maximum length in the longitudinal direction (X ) of the ski boot that is smaller than the maximum width.

Aspect 18 # pin receiving structure according to one of the two immediately preceding aspects, wherein the pin receptacle (1) are connected in an arc to the base structure (11) at its axial ski boot center end in order to engage the pin receptacle (1). To be able to conduct occurring forces optimally into the basic structure (11).

Aspect 19 # pin recording structure according to one of the three immediately preceding aspects, wherein the pin or the (1) pin recordings (1) is in each case a pin recording (1) according to one of the aspects 1 to 15.

The invention relates not only to a ski boot as such and a pin-receiving structure as such, but also to a combination of the ski boot according to the invention with a ski binding comprising a toe holder and a heel holder. The toe holder and / or the heel holder has or each have a pin for engagement in the pin receptacle. The pin receptacle preferably interacts with a pin of the toe holder. In such embodiments, the ski boot has a pin receptacle of the type explained on the left and on the right side, in each of which engages the associated pin of the toe holder in the buckled state. In principle, the pin receptacle can also be arranged in the heel area of the ski boot, in order to allow the engagement of a pin of the heel holder, if the heel holder is designed accordingly. If it is a pin recording in the heel area, the ski boot also expediently also has at least two such pin receptacles for in this case two pins of the heel holder.

It should also be noted that the features of the comparatively long cylindrical portion of the pin receptacle and the mounting angle of the pin receiving base structure are each for themselves an advantage and therefore also in each case, without the feature of TiN coating, for Subject of claims can be made.

Figur 1

Pin-Aufnahme in einer vertikalen Schnittansicht

Figur 2

Pin-Aufnahme mit eingeführtem Pin in einer vertikalen Schnittansicht

Figur 3

Basisplatte mit zwei Pin-Aufnahmen in einer vertikalen Schnittansicht

Figur 4

Basisplatte mit zwei Pin-Aufnahmen in einer perspektivischen Draufsicht

Figur 5

Basisplatte der Figur 4 in einer horizontalen Schnittansicht

Figur 6

Basisplatte mit Pin-Aufnahmen eingebaut in Skischuhsohle

In the following the invention will be explained with reference to figures. The figures show an embodiment of the invention, without limiting this to the illustrated embodiment. Features which can only be taken from the figures are included in the scope of the invention and advantageously continue the invention individually and also in combination with one another and / or with features of the description and / or features of the aspects. The figures show:

FIG. 1

Pin-shot in a vertical section view

FIG. 2

Pin recording with inserted pin in a vertical sectional view

FIG. 3

Base plate with two pin receptacles in a vertical sectional view

FIG. 4

Base plate with two pin holders in a perspective top view

FIG. 5

Base plate of the FIG. 4 in a horizontal sectional view

FIG. 6

Base plate with pin shots installed in ski boot sole

The FIG. 1 shows a pin receptacle 1, which is connected to a base plate 11. Shown is a vertical section through the center of the pin holder. 1

The pin receptacle 1 has a pin receiving opening 2, with a rounded opening edge 3, an adjoining cylindrical portion 4, and a conical portion 5 forming the inner end of the pin receiving aperture 2.

The rounded opening edge 3 has sections 3a, 3b, 3c, 3d with different rounding radii R _3a , R _3b , R _3c , R _3d . The axial length of the cylindrical portion 4 also varies, as can be seen in the sectional view.

The pin receptacle 1 is in one piece with the base plate 11 urgeformt, bass plate 11 and pin recording together form a plate 10, which can be poured, for example, in a ski boot sole, not shown.

The pin receptacle 1 is coated with a wear-resistant coating 6 at least in the region of the rounded opening edge, the adjoining cylindrical region 4 and the conical region 5 forming the inner end of the pin receiving opening 2. The coating material may in particular be a titanium nitride (TiN), a material which is particularly hard and has a golden color.

On the one hand, the coating 6 is intended to prevent the surface of the pin receptacle 1 and the inner surface of the pin receptacle opening 2 from having visible signs of wear, and secondly the golden coloration has a high recognition value.

The FIG. 2 shows the pin recording 1 the FIG. 1 with a pin 20, which is in the pin holder 1. The pin 20 includes a cylindrical portion 21 and a tapered tip 22. The cylindrical portion 21 and the tapered tip 22 of the pin 20 are close to the inner sides of the cylindrical portion 4 and the tapered portion 5 of the pin-receiving opening 2 at.

The pin 20 is pressed in a known manner by, for example, a spring force in the pin-receiving opening, so that the pin 20 is held in the receiving opening by positive and non-positive. By the long cylindrical portion 4 of the pin-receiving opening 2 is by the positive connection of the pin 20 that the pin 20 can move transversely to its longitudinal axis L _P in the pin-receiving opening 2. Cylindrical area 4 prevents the ski binding from opening too early in the event of sudden shocks in downhill mode, which can prevent falls and resulting injuries.

The FIG. 3 shows a plate 10, with a base plate 11 and two pin receptacles 1, which are connected on opposite sides with the base plate 11. Shown is a vertical section through the plate 10, centered by the two pin receptacles. 1

The two pin recordings 1 are constructed identically and correspond to the pin recording 1 of FIG. 1 ,

The FIG. 4 shows a perspective top view of a plate 10, with a base plate 11 and two pin receptacles 1, wherein in one of the pin receptacles 1, a pin 20 inserted. The arrow indicates the direction of travel F of the ski, so that a front end 12 of the base plate 11 and a rear end 13 of the base plate 11 are fixed.

The base plate 11 has a plurality of openings 14, which ensure when pouring the plate 10 in, for example, a ski boot sole, not shown, that after the casting process, the plate 10 can not move in the ski boot sole in or against the skiing direction and not across it.

The pin receptacles 1 are urgeformt in the embodiment together with the base plate 11, for example cast by means of a casting process in a common tool in one step. In this case, the plate 10 may be formed by the tool or subjected to further post-processing steps after the casting. After completion, the plate is completely or partially coated with the wear-protection coating 6. A preferred coating material is, for example, titanium nitride (TiN).

The plate 10 is preferably made of a light metal, such as aluminum, but may also be made of another metal or a metal alloy.

The pin receptacles 1 are connected in an arc to the base plate 11 at their opposite end to the skiing direction 13, in order to allow an optimal introduction of force acting on the pin receptacles 1 in this direction forces in the base plate 11.

The FIG. 5 shows the plate 10 of FIG. 4 The sections 3a, 3b, 3c, 3d of the rounded opening edge 3 with the different rounding radii R _3a , R _3b , R _3c , R _3d as well as the varying axial length can be seen again in a horizontal sectional view through the middle of the cylindrical portion 4.

In the FIG. 6 the installation situation of the plate 10 is shown in the ski boot sole 30. The plate 10 has an angle α of about 9 ° to the standard normal SN of the ski boot sole 30. In order to achieve optimum release values of the binding, an installation angle α in the range of 9 ° ± 1.5 ° is preferred. The standard standard SN points vertically to a vertical axis Z of the ski boot and of the ski; she falls with buckled ski together with the ski longitudinal axis.

As a result, optimal trigger values for the ski binding are achieved, whereby the injury risk of the user can at least be reduced.

LIST OF REFERENCE NUMBERS

1

Pin-recording

2

Pin receiving opening

3

opening edge

3a

section

3b

section

3c

section

3d

section

4

cylindrical area

5

Rejuvenation area, conical area

6

coating

10

plate

11

baseplate

12

front end

13

rear end

14

opening

20

Pin code

21

cylindrical section

22

conical tip

30

ski boot sole

L _P

Longitudinal axis pin

R _3a

radius

R _3b

radius

R _3c

radius

R _3d

radius

SN

stand Normal

X

Longitudinal axis, skiing direction

Y

transverse axis

Z

vertical axis

α

installation angle

Claims (13)

A ski boot having a pin receptacle (1) for a shoe retaining pin of a gliding board binding which, in use, engages the pin receptacle (1) to connect the ski boot to a touring ski, piste ski, freeride ski, snowboard or the like gliding board, preferably about a transverse axis (Y) rotatably connect,
wherein the pin receptacle (1) comprises a pin receiving opening (2) adapted to receive the pin (20), and
at least the pin receiving opening (2) has a wear-protection coating (6) made of a coating material,
characterized in that
the coating material is titanium nitride (TiN). Ski boot according to claim 1, wherein the pin receiving opening (2) comprises: - A rounded opening edge (3) with a radius of curvature (R _3a , R _3b , R _3c , R _3d ) and an adjoining cylindrical area (4), - And preferably at the side facing away from the opening edge of the cylindrical portion (4) to the cylindrical portion (4) tapering region (5), the direction of the opening edge (3) tapers, preferably conical. Ski boot according to one of the preceding claims, wherein the pin-receiving opening (2) has an outer opening edge (3) and an inwardly adjoining cylindrical portion (4) which is cylindrical over at least 1.5 mm, preferably at least 1.7 mm is to provide a firm grip in engagement with the pin. Ski boot according to one of the preceding claims, wherein the pin-receiving opening (2) has a rounded opening edge (3) with a radius of curvature (R _3a , R _3b , R _3c , R _3d ) which varies in the circumferential direction around the peripheral edge. Ski boot according to one of the preceding claims, wherein the pin receiving opening (2) has a rounded opening edge (3) with a radius of curvature (R _3a , R _3b , R _3c , R _3d ) comprising a first, in the first peripheral portion (3a) preferably constant value (R _3a ) in a first peripheral portion (3a) of the opening edge (3) and in another, second peripheral portion (3b) of the opening edge (3) a second, in second peripheral portion (3b) preferably has a constant value (R _3b ) different from the first value (R _3a ). Ski boot according to one of the preceding claims, wherein the pin-receiving opening (2) has a rounded opening edge (3) which has a larger radius of curvature in a circumferential section facing the axial ski end than in a lower peripheral section. Ski boot according to one of the preceding claims, wherein the coating material (6) has a maximum, preferably uniform thickness of less than or equal to 4 microns, preferably of less than or equal to 2.5 microns. Ski boot according to one of the preceding claims, wherein the pin-receiving opening (2) has an opening edge (3) and then a cylindrical portion (4), wherein the cylindrical portion (4) over its circumference everywhere is the same length or preferably different axial extents Length. Ski boot according to one of the preceding claims, wherein the pin-receiving opening (2) has an opening edge (3) and then a cylindrical portion (4), and the opening edge (3) in a lower peripheral edge portion with a radius of curvature of at most 0.5 mm , preferably at most 0.4 mm or 0.3 mm, merges into the cylindrical region (4). Ski boot according to one of the preceding claims, wherein the pin receptacle (1) is arranged on a plate-shaped base structure (11), preferably protrudes from the base structure (11), the base structure (11) has a median plane and in a sole (30) of the Skischuhs so embedded, preferably is cast in that the center plane in an installation angle (α) from the angular range of 6 ° to 12 °, preferably 7.5 ° to 10.5 °, particularly preferably 9 ° ± 1 °, to the standard ( SN) of the ski boot. Ski boot according to one of the preceding claims, wherein the pin receptacle (1) is arranged in a toe or ball area of the sole (30) of the ski boot and opens on a side edge of the sole (30) to form an opening edge (3) and wherein Ski boot on opposite opposite side edge has another pin receptacle (1), which corresponds to one or more of the preceding claims. A pin receiving structure for integration into a ski boot or ski boot sole, the pin receiving structure (10) comprising a base structure (11), preferably base plate (11), and one or more pin receptacles (1) connected to the base plate (11). each is firmly connected or are,
wherein the base structure (11) is joined together with the pin receptacle or receptacles (1) or is preferably shaped together in a metal casting process, preferably of aluminum,
and wherein the one or more pin receptacles (1) is or are coated with titanium nitride (TiN) at least in the region of a respective pin receptacle opening (2), preferably entirely. A pin receiving structure according to the preceding claim, wherein each of the pin receptacles (1) is a pin receptacle (1) according to any one of claims 1 to 11.

Images