The present disclosure is related to sports, specifically to skis, and in particular to a collapsible ski.
A collapsible ski is disclosed in U.S. Pat. No. 4,405,150. Such a ski, in its functionally assembled state, and when ready for use, like any other ski, comprises a front area with a tip, which is bent away from the ground, a rear area with a so-called tail, which is either planar or slightly bent away from the ground, as well as a central region, which is located between the front area and the rear area and is adapted for mounting each desired ski binding. A surface, which is during use is faced towards the ground, is furnished with a sliding layer, and both longitudinal edges thereof are appropriately reinforced in order to enable guidance of the skis by turning along a hard ground. Such a ski essentially consists of at least three parts, which are connectable to each other in a detachable manner: a front part and a rear part, which are pivotally connected with each other in the central region of the ski, as well as a covering part or top plate, which is pivotally connected with the rear part and can be placed over at least a portion of the front part and rear part of the ski and which is also fixed in such position when covering the front part and rear part. The covering part is designed as a U-profile and is adapted to engage with two ribs, which are present on the surface of the front part and the rear part at least in the central region of the ski, specifically, in the area of engagement with the covering part. Those skilled in the art will understand that, by bending such a ski due to bending deformation, the covering part and in particular a free end portion thereof is exposed to forces which can cause removal of the covering part from the surface of the ski. Thus, the covering part must be firmly fixed onto the surface of the ski, wherein the location of its attachment is exposed to high stresses.
A collapsible ski is also disclosed in U.S. Pat. No. 5,020,821. Such a concept actually enables relative movements of the covering part relative to the front part and rear part, which are pivotally connected with each other. The front part and rear part are, in the area of cooperation or engagement with the covering part, essentially thickened, by which the rigidity thereof is essentially increased. Such local increasing of rigidity changes bending characteristics of the ski as a whole, since its deflecting capability in the front portion and the rear portion is essentially higher than in the central region.
In addition, due to such a concept, the so-called standing height is also essentially changed or increased. Specifically, a distance between the sliding surface and the bottom surface of a ski boot is changed. Such a distance might be beneficial for skilled users, e.g. in ski competitions, but is in contradiction with the concept of the ski as such, since it appears to be totally inappropriate for such purposes.
Moreover, the concept of such a U-shaped covering part does not enable mounting of rails suitable for quickly mounting ski bindings. Modifying the covering part to such purposes would lead to still further increasing of the standing height and also of the weight and rigidity of the ski.
Thus, what is needed is a collapsible ski which addresses the above issues.
Embodiments of the present disclosure provide a collapsible ski, comprising in its assembled, or functional, state: a front portion with a tip slightly bent away from the ground; a rear portion with a tail, either essentially flat or slightly away from the ground deflected; as well as a central region, which is adapted for mounting a ski binding consisting of a front part and a rear part and being suitable for attaching each ski shoe onto the top surface of the ski. During the use of the ski, the top surface of the ski is faced away from the ground, while the opposite sliding surface is, during the use of the ski, faced towards the ground and is along nearly its complete length bounded i.e. ended with two ski edges. Such a ski is assembled and consists of a front part and a rear part, which are mutually interconnected pivotally around a transversal geometrical axis extending parallel to said sliding surface and are optionally fixed in their linearly aligned state by means of a connecting platform, which is adapted to receive said front part and said rear part of the ski binding for mounting each ski shoe onto the top surface of the ski.
The present disclosure provides a ski assembled of several detachable parts connected to one another, which can be assembled in place without any tools. Benefits of such a collapsible ski may include, on one hand, to a consumer, practical storage and transporting benefits, while on the other hand, to the manufacturer, may include simplification of technology for manufacturing of each particular component, when compared with manufacturing of classic single-part skis. The creative concept and benefit of each connectable and detachable part, and in its connected form, such should provide to each user all benefits of modern skis, including a uniform bending line, a regular distribution of loadings along the ski edges, and the possibility of quickly mounting or replacing a ski binding in place, or the like. Starting from the simplifying of the technology of manufacturing each particular part, the present disclosure provides the possibility of combining such separately manufactured and preferably standardized parts both in view of providing partially-assembled semi-products and finalizing each collapsible ski as such.
The front part and the rear part of the ski, when arranged in their linearly aligned position, are allowed to be fixed in such position by means of a platform, which is rotatable around an axis, and which extends throughout a fold between the parts and which is rectangular with respect to the sliding surface.
The front part and the rear part of the ski are connected with each other either in a non-detachable manner or in a detachable manner.
Each particular connecting platform, each having pre-determined and optionally standardized dimensions, is generally due to its rotation around the transversal axis extending throughout the fold and perpendicular with respect to the sliding surface, optionally in a detachable manner connectable with each desired assembly of a mutually interconnected front part and rear part, the length of which is determined optionally and independently on dimensions of the connecting platform.
In accordance with one of possible embodiments of the present disclosure, the front part of the ski is, in the area of cooperation or engagement with the connecting platform, furnished with an indentation. The rear part of the ski, in the area of cooperation or engagement with the connecting platform, is furnished with an indentation. The connecting platform is adapted to be placed within the area of the indentations of the front part and rear part.
In one embodiment, the connecting platform is, on each of its terminal portions, which protrude apart from each other, furnished with a convex circular surface having a pre-determined radius of curvature, and a protrusion is available on each of the convex surfaces. The indentation on the front part is ended with a concave circular surface, the radius of curvature of which is adjusted to the radius of curvature on each corresponding terminal portion of the connecting platform, and which is furnished with a groove, which is adapted to cooperate or engage with the protrusion on the corresponding terminal portion of the connecting platform. The indentation on the rear part is ended with a concave circular surface, the radius of curvature of which is adjusted to the radius of curvature on each corresponding terminal portion of the connecting platform, and which is furnished with a groove, which is adapted to cooperate or engage with the protrusion on the corresponding terminal portion of the connecting platform.
In accordance with a further possible embodiment of the present disclosure, the front part of the ski is furnished with a guiding protrusion which is located on the essentially flat top surface of the ski in the area of cooperation or engagement with the connecting platform. The rear part of the ski is furnished with a guiding protrusion which is located on the essentially flat top surface of the ski in the area of cooperation or engagement with the connecting platform, wherein the connecting platform is adapted to be placed in the area of the guiding protrusions.
In one embodiment, the connecting platform is, on each of its terminal portions, which protrude apart from each other, furnished with a convex circular surface having a pre-determined radius of curvature, and a protrusion is available on each of the convex surfaces. The guiding protrusion on the front part is ended with a concave circular surface, the radius of curvature of which is adjusted to the radius of curvature on each corresponding terminal portion of the connecting platform, and which is furnished with a groove, which is adapted to cooperate or engage with the protrusion on the corresponding terminal portion of the connecting platform. The guiding protrusion on the rear part is ended with a concave circular surface, the radius of curvature of which is adjusted to the radius of curvature on each corresponding terminal portion of the connecting platform, and which is furnished with a groove, which is adapted to cooperate or engage with the protrusion on the corresponding terminal portion of the connecting platform.
A connecting member for establishing a pivotal interconnection between the front part and the rear part of the ski is hinge-like, conceived and furnished with arresting or prominent protrusions, which protrude apart from each other and are arranged such that the arresting or prominent protrusion on the front part of the ski is located at a distance apart from the top surface of the front part of the ski and is directed towards the tip of the ski, and the arresting or prominent protrusion on the rear part of the ski is located at a distance apart from the top surface of the rear part of the ski and is directed towards the tail of the ski. The connecting platform is furnished with a centrally arranged cavity, which is located on its bottom surface facing towards the front part and rear part of the ski and within which two diametrically opposite recesses are arranged, which are adapted to cooperate or engage with the arresting or prominent protrusions on the connecting member, such that the arresting or prominent protrusions on the connecting member are allowed to be inserted into the cavity. The arresting or prominent protrusions are allowed to be inserted into the cavity of the connecting member when the front part and the rear part of the ski are linearly aligned and the connecting platform is rotated at a certain angle around the vertical axis with respect to their longitudinal direction, and when the connecting platform is rotated around the vertical axis into a position in which it is linearly aligned with the parts of the ski, then the protrusions of the connecting member are inserted within the recesses in the cavity of the connecting platform, by which the connecting platform is firmly, but still in a detachable manner, interconnected with the front part and rear part of the ski.
In each of the previously described embodiments, the connecting platform includes suitable assemblies for mounting the front part and the rear part of the ski binding.
These and other embodiments in accordance with the present disclosure will be understood with reference to the description and appended claims which follow.
The present disclosure is illustrated by way of example and not limitation with reference to the accompanying figures, in which like references generally indicate similar elements or features.
Skilled artisans will appreciate that elements or features in the figures are illustrated for simplicity and clarity and have not necessarily been drawn to scale. For example, the dimensions or prominence of some of the illustrated elements or features may be exaggerated relative to other elements or features in an effort to help to improve understanding of embodiments of the present disclosure.
Embodiments disclosed herein describe a collapsible ski according to various implementations, which are conceptually similar, but varied in their execution, manufacturing, and functionality. The various embodiments are presented in
A ski binding 4 suitable for mounting onto the top surface 94 of the ski consists of a front part 41 and a rear part 42, and a ski shoe can be inserted between them, which is then by means of parts 41 and 42 of the ski binding 4 temporarily and detachably connectable with the ski. Modern skis are furnished with parts 41 and 42, which are in an easily and simple manner detachably connectable with the ski by means of connecting assemblies 410 and 420 (depicted in
In accordance with embodiments of the present disclosure, a collapsible ski consists of a front part 1 and a rear part 2, which are pivotally connected with each other, as well as of a connecting platform 3, by means of which front part 1 and rear part 2 are optionally fixed in their linearly aligned position.
The front part 1 and rear part 2 are interconnected in the central region 93 of the ski, namely pivotally around the transversal axis 100 extending essentially parallel to the sliding surface 95 of the ski. Parts 1 and 2 can be pivotally interconnected either on a detachable manner or in a non-detachable manner, by which the ski is either collapsed or assembled.
As a result of the pivotal interconnection of front part 1 and rear part 2, parts 1 and 2 can be pivoted between their end positions. Specifically, front part 1 and rear part 2 can be pivoted between a first end position, in which front part 1 and rear part 2 are linearly aligned and form a functional shape of the ski (
In one embodiment as described with reference to
In accordance with one embodiment, for example, described with reference to
Moreover, the front part 1 and rear part 2 of the ski are each adapted to cooperate or engage with the connecting platform 3, which is adapted to interconnect parts 1 and 2 by rotating around a geometric axis 200 extending throughout the fold between parts 1 and 2 in the central region 93 of the ski, and at the same time perpendicularly with respect to the sliding surface 95 of parts 1 and 2, when these are aligned.
In one embodiment of the ski as shown in
Thus, the connecting platform 3 is adapted to cooperate or engage with parts 1 and 2, wherein its width is adjusted to the central region 93 of the ski, while its height essentially corresponds, or is adapted respectively, to the depth of cavities 11 and 21 on the front part 1 and the rear part 2 of the ski, respectively. Moreover, platform 3 is, in each terminal region 30′, 30″ furnished with a convex circular surface 31′, 31″, which is furnished with a protrusion 32′, 32″. Each of the protrusions 32′, 32″ on surfaces 31′, 31″ of the connecting platform 3 is adapted to cooperate or engage with a corresponding groove 13 and 23 on surfaces 12 and 22 in the area of the indentations on the front part 1 and the rear part 2 of the ski. The radius of curvature of surfaces 12 and 22 on the parts 1 and 2 is adjusted to the radius of curvature of the convex surfaces 31′ and 31″ on the connecting platform 3. Accordingly, connecting platform 3 can be rotated around axis 200, when placed above front part 1 and rear part 2 of the ski.
Those skilled in the art shall understand that after rotation of the platform 3 into position, in which it is aligned with the front part 1 and the rear part 2, and fixation of the platform 3 in such position by means of a suitable fixation or arresting means, such ski is an excellent substitute for a classic ski, by which an average skier should be perfectly satisfied.
A further embodiment of the ski is shown in
The connecting platform is also adapted for cooperation or engagement with the parts 1 and 2, in that its width is adjusted to the width of the central region 93 of the ski, and its height is adjusted to the dimensions of the guiding protrusions 11′, 21′ on the front part 1 and the rear part 2 of the ski. Moreover, connecting platform 3 is, on each terminal portion 30′ and 30″, furnished with a convex circular surface 31′ and 31″, each of which is provided with a protrusion 32′ and 32″. The protrusions 32′ and 32″ on the surfaces 31′ and 31″ of the connecting platform 3 are adapted to cooperate with the grooves 13 and 23 on surfaces 12 and 22 of the guiding protrusions 11′, 21′ on the front part 1 and the rear part 2 of the ski. The curvature radius of the concave surfaces 12, 22 of the guiding protrusions 11′ and 21′ on parts 1 and 2 is adjusted to the radius of curvature of the convex surfaces 31′ and 31″ on the connecting platform 3. Thus, the connecting platform 3, when placed above the front part 1 and the rear part 2, is able to rotate around the previously mentioned geometric axis 200.
Those skilled in the art shall understand that after rotation of the platform 3 into position, in which it is aligned with the front part 1 and the rear part 2, and fixation of the platform 3 in such position by means of a suitable arresting or fixation means, such ski is an excellent substitute for a classic ski, by which an average skier should be perfectly satisfied.
Regarding the embodiment according to
As evident in
Number | Date | Country | Kind |
---|---|---|---|
P-201300124 | May 2013 | SI | national |
This application is a United States national phase application of co-pending international patent application number PCT/SI2014/000022 filed Apr. 30, 2014, which claims the benefit of Slovenia Application No. P-201300124 filed May 22, 2013. The contents of both applications are incorporated by reference herein in their entirety.
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/SI2014/000022 | 4/30/2014 | WO | 00 |