Patent Grant
11589641
The present invention refers to a ski boot, of the kind comprising a substantially rigid outer shell and a cuff articulated to said shell. More particularly, the present invention refers to a ski boot comprising a locking device, intended to lock the shell and the cuff articulated thereto relative to each other or leave them free from each other. The present invention may be applied, particularly, though not exclusively, to the field of boots for ski mountaineering.
According to prior art, ski boots usually comprise an inner liner made of substantially soft material and an outer shell made of a substantially rigid material. Still according to prior art, the substantially rigid shell of ski boots, which is shaped to accommodate the user's foot, is associated with a cuff suitable for accommodating the ankle and the lower part of the calf of the user.
In general, said cuff is articulated to the shell at the malleolar region, so as to allow—if desired—a rotation of the cuff relative to the shell.
This possibility is particularly important in the case of boots for ski mountaineering: when the user has to walk during the ascent, it is obviously preferable that the cuff is free to rotate relative to the shell, in order to make walking more comfortable; on the other hand, when the user descends while skiing, it is preferable that the cuff is locked with respect to the shell, both for safety reasons and for obtaining satisfactory performance, ensuring that movements—even minimal ones—of the user's leg are rigidly transmitted to the ski boot, and from this to the ski.
Locking devices are known from prior art, which devices allow to switch from a first configuration in which the cuff can rotate relative to the shell (configuration suitable for walking) to a second configuration in which the rotation of the cuff relative to the shell is prevented (configuration suitable for skiing), and vice versa.
These locking devices generally include a male element connected to the cuff and a female element connected to the shell, or vice versa, at least one of said elements being arranged to be movable. In this way, the movable element can be brought to engage with the other element or to disengage from it, for example by means of a rotation or translation movement: when the male and female elements are engaged with each other, the rotation between the shell and cuff is prevented, whereas when the male and female elements are disengaged, the cuff is free to rotate relative to the shell.
Driving means are usually provided for actuating the rotation or translation movement of the movable element, for switching the ski boot from one configuration to the other one. Said driving means may comprise, for example, a lever that can be moved by the user to actuate a rotation movement of said movable element. Usually, said lever is moved by overcoming the resistance of an elastic element, such as a spring.
More particularly, when the ski boot is in the above-mentioned first configuration (with the male and female elements of the locking device disengaged from each other), the spring is in a rest condition and it is necessary to overcome the resistance of said spring to switch to the above-mentioned second configuration.
Once the ski boot is in said second configuration, the engagement between the male and female elements of the locking device keeps it stably in said configuration, and said elements must be manually disengaged from each other by the user to switch back the ski boot to the first configuration.
However, it is to be considered that during skiing the ski boot is subject to considerable stresses, and it is likely to be subjected to impacts, even of considerable entity. It is therefore possible that accidental disengagement of the male element from the female element of the locking device may occur. This is obviously undesirable, as the user would suddenly have a ski boot in which the cuff is no longer locked relative to the shell and, on the contrary, it is free to move relative to it.
Therefore, the problem arises of eliminating the risk of sudden and unwanted movements of the cuff relative to the shell when the ski boot is used while skiing (i.e., during the descent phase).
The object of the present invention is therefore to overcome the drawbacks of prior art by providing a ski boot provided with an improved locking device capable of effectively avoiding accidental disengagement of the male element from the female element of said locking device. This and other objects are achieved by the ski boot as claimed in the appended claims.
The ski boot according to the invention comprises, in a per se known manner, an outer shell made of a substantially rigid material and a cuff articulated to the rigid outer shell. The ski boot according to the invention also comprises a locking device to selectively allow or prevent the movement of said cuff relative to said shell.
Said locking device comprises a first engaging element integral with or connected to the shell and a second engaging element integral with or connected to the cuff, said first and second engaging elements being configured to cooperate with each other for locking said shell and said cuff relative to each other.
Said locking device comprises a driving element which can switch from a first position, in which said first and said second engaging elements are in a first configuration in which they are disengaged from each other, to a second position, in which said first and said second engaging elements are in a second configuration in which they are engaged with each other, and vice versa.
According to the invention, the locking device also comprises deadlocking means allowing to prevent the movement of the driving element at least when said driving element is in said second position. Thanks to the presence of said deadlocking means, the risk that said first and second engaging elements accidentally leave said second configuration in which they are engaged with each other is avoided. As a result, if during skiing the driving element is subjected to stress and/or impacts which could cause a movement of said driving element away from the second position sufficient to cause the disengagement of the first and second engaging elements of the locking device, such movement is effectively prevented by the deadlocking means.
Optionally, the locking device may include further deadlocking means to allow to prevent the movement of the driving element when said driving element is in the first position. However, it will be evident to those skilled in the art that the presence of said further deadlocking means is completely optional and not necessary for satisfactory use of the ski boot.
In fact, first of all, the ski boot is subject to lower stresses and weaker impacts during walking. Secondly, it is highly unlikely that the first and second engaging elements of the locking device will accidentally come into engagement with each other, whereby the elastic return force of the elastic element will be sufficient to bring the driving element back to the first position.
According to a preferred embodiment of the invention, the driving element is connected to one out of the shell and the cuff of the ski boot and the deadlocking means comprise a first deadlocking element integral with or connected to the driving element and a second deadlocking element integral with or connected to the other one of the shell and the cuff of the ski boot.
The deadlocking means further comprise a control element which acts onto the first and/or the second deadlocking element to control switching from a configuration in which said first and said second deadlocking elements cooperate with each other to prevent movements of the driving element of the locking device, to a configuration in which said first and said second deadlocking elements do not cooperate with each other and movements of the driving element of the locking device are allowed.
In a particularly preferred embodiment of the invention, one of the deadlocking elements is a movable deadlocking element having a cam profile, the other deadlocking element is made in the form of an abutment surface and the control element is configured to rotate said movable deadlocking element: said movable deadlocking element, when rotating, can switch, thanks to its irregular profile, from a configuration in which it is in engagement with the other deadlocking element to a configuration in which it is disengaged from it, and vice versa.
Further features and advantages of the invention will become more evident from the following detailed description of a preferred embodiment, given by way of non-limiting example, with reference to the attached drawings, in which:
The preferred embodiment of the invention described below refers to the application of the invention to a boot for ski mountaineering. However, this embodiment shall in no way be understood as limiting the scope of the invention.
Such a ski boot 1 is partially shown in
In a per se known manner, the ski boot 1 comprises an inner element or inner liner made of a substantially soft material (not visible in the Figures) and an outer element or outer shell 3 made of a substantially rigid material.
The outer shell 3 is shaped to accommodate the user's foot and the ski boot 1 also comprises a cuff 5, which is also made of a substantially rigid material and is articulated to the outer shell 3 by means of rotation pins (not visible in the Figures) at the two opposite sides of said outer shell, substantially at the malleolar region.
The ski boot 1 further comprises a locking device 7 to selectively allow or prevent rotation of the cuff 5 relative to the shell 3.
Correspondingly, the locking device comprises a second engaging element 11 which is integral with or connected to the cuff and which is configured to cooperate with the first engaging element 9. It is evident that in the shown embodiment the second engaging element 11 has to be designed as a male engaging element; in detail, it is designed as a bar 11 which can be received and retained in the seat 9c of the first engaging element 9. It is evident that it would also be possible to provide a first, male engaging element integral with or connected to the shell and a second, female engaging element integral with or connected to the cuff.
The locking device 7 comprises a driving element 13 which can switch from a first position, in which said first and said second engaging element 9, 11 are in a first configuration in which they are disengaged from each other, to a second position, in which said first and second engaging elements 9, 11 are in a second configuration in which they are engaged with each other, and vice versa.
More particularly, in the embodiment shown in the Figures, said driving element is a driving lever 13 which is rotatably connected to a base plate 15 fixed to the cuff 5 at a first end and carries the second engaging element 11, i.e., the bar 11, at its second opposite end.
In detail, the second end of the driving lever 13 has two parallel arms 13b, 13c separated from each other by a gap 13a, transversely to which the bar 11 is mounted.
It is evident that, in an alternative embodiment of the invention, the driving lever could be rotatably connected to the shell at a first end and carry the first engaging element to its second, opposite end.
It is also evident that, in further alternative embodiments, the driving element could also be made in a form other than a driving lever.
Referring back to the embodiment shown in the Figures, in the first position of the driving lever 13 (
For switching from the first to the second position, the driving lever 13 has to overcome the elastic resistance of a spring 17 which tends to keep said driving lever stably in said first position.
Once the driving lever has been switched to the second position, the engagement between said first and said second engaging element 9, 11 stably keeps said driving lever in said position: in order to switch the driving lever back to the first position it is necessary for the user to manually disengage the first and second engaging elements 9, 11, after which the spring 17, returning to its rest configuration, will bring said driving lever 13 back to the first position.
In order to avoid accidental disengagement between the first and second engaging elements 9, 11 as a result of stresses or impacts to which the ski boot is subjected during sports practice, the invention advantageously provides that the locking device 7 is provided with deadlocking means 19 which prevent the movement of the driving lever 13 when it is in the second position.
With reference to
It will be evident to the person skilled in the art that in the embodiments in which the driving element is connected to the shell of the ski boot, the second deadlocking element will be integral with or connected to the cuff of said boot.
In the embodiment of the invention shown in the Figures, the first deadlocking element 21 is an element with an irregular profile (for example, a cam profile) which is rotatably mounted on the driving lever 13 and is controlled in rotation by the control element 25.
As can be seen in
It is to be noted that the maximum diameter of the first deadlocking element 21 is smaller than the width of the driving lever 13, so that, when the driving lever is in the second position and the first and second engaging elements 9, 11 are engaged with each other, the first deadlocking element is completely covered by the driving lever and is not subjected to stresses or impacts (see
It is also to be noted that the control element 25 comprises gripping means 25a which—while allowing the user to act onto said control element—have a size as small as possible, so as to be also minimally subject to stresses or impacts.
The first deadlocking element 21 can be rotated by the control element 25 between two limit positions, determined by a stop element 27 provided on said first deadlocking element and by two corresponding stops 29a, 29b provided on opposite walls of the driving lever 13.
In a first limit position, shown in
In a second limit position, shown in
In
In the shown embodiment, the second deadlocking element is made as an abutment surface 23 which is arranged flush with the bottom portion of the gap 13a of the driving lever 13 when said driving lever is in the second position.
It is therefore evident that, if the first deadlocking element 21 is in the first limit position shown in
Therefore, when the user intends to switch the ski boot to the configuration suitable for skiing:
In order to switch the ski boot to the configuration suitable for walking, the user must first act onto the control element 25 of the deadlocking means 19 to move back the first deadlocking element to its first limit position.
As mentioned above, this control element 25 is shaped in such a way as to make accidental and unwanted movement of the first deadlocking element highly unlikely.
The second deadlocking element 23 could be a separate element secured to the shell 3 of the ski boot 1. However, in the shown embodiment (and as clearly visible in
In detail, the abutment surface 23 is obtained by suitably shaping the plate 9a of the first engaging element 9.
It will be evident to the person skilled in the art that the embodiment disclosed above in detail shall in no way be understood in a limiting sense and several variants and modifications are possible without thereby departing from the scope of the invention as defined by the appended claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 102020000000988 | Jan 2020 | IT | national |
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| Entry |
|---|
| Italian Search Report and Written Opinion issued for Italian Patent Application No. 102020000000988 dated Oct. 6, 2020. |
| Number | Date | Country | |
|---|---|---|---|
| 20210219653 A1 | Jul 2021 | US |
