Support adjuster device for the quarters of ski boots

Abstract

The present invention relates to a support adjuster device for the quarters of ski boots including a shaped body, pivoted to the quarter of a ski boot, and means for adjusting and releasably locking the shaped body in any desired position with respect to the quarter. The device enables a skier to adjust the abutment of the quarter on the leg as desired through easily operable means.

Description

BACKGROUND OF THE INVENTION

The present invention relates to a suport adjuster for the quarters of ski boots.

As is known, to practice skiing correctly it is necessary for the rear quarter, and possibly the front quarter, of rear-entry ski boots, or the rear part of the single quarter in the case of front-entry ski boots, to offer some support to the rear part of the leg substantially at the level of the calf.

In the French Patent no. 2,089,128, a rear support device is described which comprises a tab which can be adapted to the calf of the skier, a support ajustment system is also described, but this sytesm, is, in practice, scarcely practical for the user and is rather complicated to provide. In most ski boots, this kind of support cannot be adjusted according to one's own skiing requirements, so that in practice the user adjusts the rear support offered by the quarter by varying the closing action of the quarter itself.

SUMMARY OF THE INVENTION

The aim proposed by the present invention is to solve the above described problem by providing a support adjuster specifically adapted for the quarters of ski boots, which allows the user the possibility of adjusting as required the supporting action effected on the leg by the upper end of the quarter.

Within the scope of the above described aim, a particular object of the invention is to provide an adjuster which allows to achieve a greater adaptation to large calves in order to reduce pressures on the upper part.

Still another object of the invention is to provide a support adjuster which is very quick and simple to operate, since it does not require particular or in any way complicated manoeuvers.

Still another object of the present invention is to provide a rear support adjuster which can be fitted with extreme ease and speed to a ski boot, without thereby giving rise to particular complexities in structure.

A not least object of the present invention is to provide a support adjuster which is structurally simple and which, furthermore is of very low cost.

The above described aim, as well as the objects mentioned and others which will become apparent hereinafter, are achieved by a support adjuster for quarters of ski boots, comprising a shaped body embracing at least a portion of the leg of a skier and supported at the upper end of the quarter of a ski boot, characterized in that it comprises means for adjusting and releasably locking the positioning of said shaped body with respect to said quarter.

BRIEF DESCRIPTION OF THE DRAWINGS

Further characteristics and advantages will become apparent from the detailed description of a support adjuster for the quarters of ski boots, illustrated only by way of non-limitative example in the accompanying drawings, wherein:

FIG. 1 is a schematic perspective rear view of a quarter of a ski boot bearing a rear support adjuster, according to the invention;

FIG. 2 is a longitudinal cross section view of the support adjuster of FIG. 1;

FIG. 3 is a schematic perspective front view of a quarter of a ski boot bearing a front support adjuster, according to the invention;

FIG. 4 is a longitudinal cross section view of the support adjuster of FIG. 3;

FIG. 5 is a lateral elevation view of a quarter of a ski boot with a front support adjuster and locking means composed of a system of connecting rods;

FIG. 6 is a partly cut-away front view of the system of connecting rods of FIG. 5 in the position of maximum backward inclination of the shaped body;

FIG. 7 is the same view as FIG. 6 with the locking system in the position of maximum forward inclination.

FIG. 8 shows, in a partial front view, a first mechanism based on an eccentric for an adjustment and removable locking operation;

FIG. 9 is a diagrammatic section according to line IX--IX of FIG. 8;

FIG. 10 shows in a partial front view, a second eccentric based mechanism for adjustment and removable locking operation:

FIG. 11 is a diagrammatic section according to line XI--XI of FIG. 10.

DESCRIPTION OF THE PREFERRED EMBODIEMNTS

With reference to FIGS. 1 and 2. the support adjuster for ski boot quarters, according to the invention, comprises a con-cavely shaped body, generally indicated by the reference numeral 1, which in the illustrated embodiment is shaped so as to face and embrace at least a portion of the rear part of the leg of a skier. More in detail, the shaped body 1 is provided with spaced apart lateral fins sidewalls 2 tapering forwards which join to a central portion 3, bringing said side walls which can be positioned in the rear part of the leg of a skier, substantially below the region affected by the calf.

The fins 2, at their tapered end, are connected to the quarter 4 by means of a coupling which is preferably, a hinge-like or oscillable connection. As clearly visible in the drawing the overall height of said concavely shaped body portion 1 is substantially smaller that the extent in the upward direction of the quarter 4.

As illustrated in the figures, studs or pivots are provided, indicated by the reference numeral 6, which connect the fins 2 with the lateral part of the quarter 4 so as to allow an oscillation of the shaped body 1 about an axis which is substantially transverse with respect to the longitudinal extension of the leg and transverse with respect to the longitudinal extension of the foot.

A dentellated tab 10, provided with saw-like teeth 11, extends downwards from the connecting portion 3, and is accommodated in a recess 12 defined on the outer part of the quarter, while the shaped body is mainly accommodated inside the quarter.

Means are furthermore provided for the releasable locking of the position of the shaped body, which are composed of a small lever 20 pivoted in a middle portion thereof to its supporting base 22 and provided, at one end, with engagement teeth 23 which couple with the saw-like teeth 11.

Elastic means act, in a per se known manner, on the small lever 20. which means keep the engagement teeth elastically engaged with the saw-like teeth of the tab 10, thus obtaining a coupling which allows upward displacement of the dentellated tab with a ratcheting motion of the engagement teeth on the teeth of the dentellated tab, while they perform a locking action against downward displacement of the dentellated tab.

The lever 20 is furthermore provided with an operating end, indicated by the reference numeral 25, which can be operated to uncouple the engagement teeth from the dentellated tab.

As is schematicaly indicated with a broken line in FIG. 2, it is possible to vary the support provided by the shaped body 1 for the leg simply by varying the position of the shaped body 1 with respect to the quarter, and in particular by rotating forwards the shaped body 1 a greater support is achieved, while the degree of support decreases by rotating the shaped body backwards, i.e. anticlockwise with reference to the illustration.

The presence of the dentellated lever structured as described above causes the position assumed by the shaped body ot remain stable since all the acting actions would tend to push the dentellated tab back downwards, said tab being prevented from moving in this direction by the teeth of the lever 20.

In order to change the position or to move backwards the shaped body 1, it is sufficient to act on the operating end of the small lever 20, consequently performing the uncoupling of the engagement teeth 23 from the teeth 11 of the dentellated tab 10.

FIG. 3 and 4 illustrate another embodiment of the support adjuster, in which a shaped body, generally indicated by the reference numeral 31, is shaped so as to embrace at least a portion of the front or tibial part of the leg of a skier. The shaped body 31 comprises lateral fins 32, tapering backwards, which join at a central portion 33 which can be positioned substantially at the tibia of a skier.

The fins 32 are connected to the quarter 34, at their rear end, e.g. by means of a hinge, similarly to what has been described above, by means of pivots 36, thus allowing an oscillation of the shaped body 31 about an axis which is transverse to the longitudinal extension of the leg and of the foot.

From the connecting portion 33, a dentellated tab 310 extends downwards, with saw-like teeth 311, which is accommodated in a recess 312 defined on the outer part of the quarter; the shaped body 31 is instead accommodated mainly inside the quarter. Releasable locking means are furthermore provided, fully similar to what has been described above, comprising a small lever 320 pivoted to its supporting base 322 and provided, at one end, with engagement teeth 323 which couple with the saw-like teeth 311 of the dentellated tab 310. As is schematically indicated with a broken line in FIG. 4, it is possible to vary the tibial support provided by the shaped body 31 to the leg by varying the position of the shaped body 31 with respect to the quarter: in particular, by rotating the shaped body backwards a greater support is achieved, while by rotating the shaped body forwards tibial support is decreased.

FIG. 5-7 illustrate another embodiment of the releasable locking means, applied in this case to a front support adjuster and similar to the devices described in the European patent application N. 86100791.2 filed on Jan. 22, 1986 and U.S. Pat. No. 4,523,395.

The locking device comprises a bar 51, with portions with opposed threads, rotatably supported at the front part of the quarter 44. As visible from the drawing the bar 51 is parallel to the axis of the pivots 6. To one end of the bar 51, on the outside of the quarter, a grip and operation lever 52 is pivoted which, when not in use, can be flush-fitted in a recess 53 provided on the outer lateral surface of the front quarter 44.

With the portions of the opposed thread, indicated with 51a and 51b, of the bar 51, couple two sliders 54 which are prevented from rotating so that a rotation of the bar 51 corresponds to an opposite motion of the same sliders. The end of a pair of connecting rods 55 is articulated to the sliders, which rods, at their other end, are mutually connected to an abutment 56 rigidly associated with a tab or projection 57 extending from the central portion 43 of the shaped body 41.

With the arrangement described, by acting on the operating lever 52 and causing the rotation in one direction of the bar 51, there is a corresponding motion of the sliders 54, which move reciprocally closer towards the middle portion of the bar 51, so that the two connecting rods 55 move the abutment 56 away from the bar 51, which abutment, by acting on the tab 57, causes a greater backward inclination of the shaped body 41 (FIG. 5). Similarly, by rotating the bar 51 in the opposite direction, the sliders 54 move towards the ends of the bar 51 and consequently the abutment 56 moves closer to the bar 51, inclining the shaped body 41 forwards.

The alteration of the inclination of the shaped body 41, i.e. the adjustment of the support, is obtained by simply extracting the operating lever 52 from its recess 53, rotating, by means of the same lever 52, the bar 51 until one obtains the required position of the shaped body 41 and finally by returning the lever 52 to the recess 53 so as to prevent unwanted rotations of the bar 51.

Advantageously, the shaped body 41 is provided, in its central portion 43, with a slot 58, which extends preferably vertically in the upper region of the central portion 43: the slot 58 allows a slight elastic deformation of the shaped body 41, thus rendering the support on the leg of the skier less rigid.

In FIGS. 8-9 another embodiment of the means for adjusting and releasably locking is shown comprising a small block 71 eccentrically pivoted on the central portion 63 of the shaped body 61, about a horizontal axis which extends transversally to the longitudinal axis of the ski boot. The small block 71 fork like shaped comprises a main portion 72 and two flaps 73 which encircle an appendix 74 provided externally on the central portion 63.

The small block 71 is connected to the central portion 63 by means of the two flaps 73 which are hinged onto the appendix 74, for instance by means of a not shown screw. The eccentric based adjustment mechanism is capable of taking two positions: a first position of minimal abutment (FIG. 8), in which the small block 71 is turned up-wards, thereby leaving free a gap 75 between the shaped body 61 and the quarter 64 (in this way a rotation towards the outside of the shaped body is possible); a second position of maximum abutment (FIG. 9) in which the small block 71 is downwardly rotated so as to prevent a rotation towards the outside (in the clockwise direction when viewing FIG. 9) of the shaped body 61 with respect to the quarter. Undesired rotation of the small block 71 are prevented by the friction existing between the contacting and facing surfaces of the flaps 73 and appendix 74.

In FIGS. 10 and 11 another embodiment of the mechanism for a releasable locking is shown, comprising an eccentric 91 pivoted onto the shaped body 81, in a central portion 83 thereof, about an horizontal axis which is parallel to the longitudinal axis of the ski boot. The eccentric 91 is preferably positioned at the inside of the shaped body 81 and is provided with a pin 92 which is received in a hole provided in the central portion 83 and on which a handle 93 is fixed, which is located at the outside of the shaped body 81. In this way a turnable connection between the shaped body 81 and the eccentric 91 is obtained as well as an external actuation means for the rotation of the eccentric 91. The eccentric 91 shows an enlarged base 94 with a profile corresponding to that of an edge 86 of quarter 84, thereby preventing an external inclination (maximum abutment) of the shaped body 81, when the eccentric 91 is in a vertical position in which its abuts against the edge 86 of the quarter.

When the eccentric 91 is in a horizontal position (shown in dotted lines in FIG. 10) it does not interfere anymore with the edge 86 of the quarter 84, thereby allowing an inclination towards the outside (minimum abutment) of the shaped body 81. The adjustment of the abutment takes place in the following way: when the eccentric 91 is in a vertical position the maximum abutment takes place; in order to pass into the minimum abutment position it is necessary to incline the shaped body towards the inside (anticlockwise direction when viewing FIG. 11) for instance without the foot being put into the ski boot, and rotating the handle 93 until the eccentric 91 is brought into the horizontal position. The profile itself of the eccentric owing to the enlarged base 94 prevents an undesired rotation of the same, but in order to further fix the position of the eccentric it is possible to provide on the surface of the eccentric 91 turned towards the inside of the shaped body 81, a tooth 95 which may be engaged in the seats 96 and 97 provided on the internal surface of the shaped body 81.

The support adjuster according to the invention, in all the embodiments described, can be used on any kind of ski boot, both of the conventional monolithic type and of the rear-entry type with the rear quarter pivoted to the shell, and, again, of the type having the front quarter separate from the rear quarter.

From what has been described, it can thus be seen that the invention achieves the intended aims, and in particular the fact is stressed that, with extremely simple means, a ski boot is provided which offers the user the possibility of altering as desired the support offered rearwardly and possibily frontally to the leg by the quarter, so as to better adapt to the habits and the needs of the user.

In practice, the materials employed, as well as the dimensions and the contingent shapes, may be any according to the requirements.

Claims

1. A ski boot with a shell defining a longitudinal direction thereof and comprising:

at least one quarter being connected to said shell and extending upwardly from said shell so as to define an upwardly extending extent thereof, said at least one quarter having a lower end and an upper end, said at least one quarter being connected to said shell at said lower end thereof, said at least one quarter having an extent in the upward direction from a lower edge of said lower end thereof to an upper edge of said upper end thereof, said extent of said at least one quarter extending upwardly from said shell past a user's ankle region up to a tibial portion, respectively a calf portion of the user's lower leg, thereby said upper end of said at least one quarter being arranged at said tibial portion, respectively said calf portion of the user's lower leg.

a support adjuster device for bearing against said tibial portion, respectively said calf portion of the user's lower leg, said support adjuster device comprising a concavely shaped body portion being pivotally mounted to said upper end of said at least one quarter, said concavely shaped body portion defining a concavity for at least partially embracing said tibial portion, respectively said calf portion of the user's lower leg facing said concavity of said concavely shaped body portion,

said concavely shaped body portion having upwardly extending spaced apart lateral side wall portions and an upwardly extending central portion bridging said side wall portions, said concavely shaped body portion having an overall height being smaller in size than said upwardly extending extent of said at least one quarter, said concavely shaped body portion having a lower end and an upper end, said concavely shaped body portion having an upwardly extending extent from a lower edge of said lower end thereof up to an upper edge of said upper end thereof, each one of said lateral side wall portions of said concavely shaped body portion being pivotally connected respectively to lateral side portions of said upper end of said at least one quarter,

means for pivotally mounting said each one of said lateral side wall portions of said concavely shaped body portion respectively to said lateral side portions of said upper end of said at least one quarter about a tranverse axis extending transversely to said longitudinal direction of said shell and transversely to said side wall portions of said concavely shaped body portion and transversely to said lateral side portions of said upper end of said at least one quarter, said concavely shaped body portion being pivotally rotatable about said transverse axis between a plurality of angular positions defined by a relative angular position of said extent of said concavely shaped body portion with respect to said extent of said at least one quarter, wherein

said concavely shaped body portion is releasably lockably positionable in at least one of said plurality of angular positions so as to define a releasable locked non-rotatable stable rigid connection relationship between said concavely shaped body portion and said at least one quarter which defines a fixed non-rotatable relative angular position of said extent of said concavely shaped body portion with respect to said extent of said at least one quarter, said ski boot further comprising:

releasable locking means for releasably locking said concavely shaped body portion in a selected one of said plurality of angular positions which defines a fixed non-rotatable relative angular position of said extent of said concavely shaped body portion with respect to said extent of said at least one quarter independently from the angular position of said at least one quarter with respect to said shell, thereby said concavely shaped body portion being adapted to exert on the tibial portion, respectively the calf portion of the user's lower leg a selected rigid supporting action independent from the closing action of said ski boot.