The present application refers to a snow ski board such as a ski, monoski, a snowboard, or the like. It concerns, more particularly, a relative improvement to a ski board base, to which is affixed at least one supplementary element.
Many snow sports have attracted more and more followers and have evolved significantly in recent years with more and more exacting techniques due to the improved quality of the products. Such is the case, for example, with the sport of snow skiing.
Numerous models of skiing boards are known, and more notably skis that are made of a lengthened beam of which the front extremity is raised to define a tip, while the lower surface includes a sliding surface edged by metallic edges.
Despite the efforts of manufacturers to satisfy the clientele, to this day, a ski does not exist which perfectly brings together the comfort of the user and satisfactory control characteristics for whatever the terrain and whoever the user.
The present application proposes polyvalent skis made of a base and at least one supplementary element whose combined form, dimension, and structure give the body of the ski the desired characteristics for comfort and control.
According to one aspect of the invention a snow ski board such as a ski, a monoski, or a snowboard with a vertical plane of symmetry, has a principal part, called the body or base, including in the shoe or binding zone and at least two hollow lateral receivers or recesses extending longitudinally and defining a longitudinal rib therebetween. Each of the longitudinal receivers opens at least towards the top of the aforementioned body, at least in the binding zone. A supplementary element includes two lateral longitudinal parts which extend longitudinally in a parallel manner. The two lateral longitudinal parts are affixed into the aforementioned hollow receivers. The two lateral longitudinal parts are linked by at least one transverse connector.
According to another embodiment, the two longitudinal lateral parts are linked by two transverse connectors.
According to another aspect, each of the hollow lateral receivers includes two grooves that open to the top of the ski.
According to another aspect, each of the hollow lateral receivers includes two lateral recesses that open laterally towards the exterior and towards the top and do not open towards the bottom, thus forming a lower lateral edge.
Additionally, the thickness of the lower lateral edge of the base as well as the height of the lateral longitudinal parts of the supplementary element is variable.
According to another embodiment, the thickness of the lateral lower edge of the base as well as the height of the lateral longitudinal parts of the supplementary element, diminish progressively from the center of the ski, towards the front and/or towards the back.
According to another embodiment, the thickness of the lower lateral edge of the base is constant, while the height of the lateral longitudinal parts of the supplementary element is variable.
Again, according to another embodiment, the height of the lateral longitudinal parts of the supplementary element diminishes from the center of the ski, towards the front and/or back.
According to another embodiment, the thickness of the lower lateral edge of the base varies, while the height of the lateral longitudinal parts of the supplementary element is constant.
Additionally, the thickness of the lateral edge of the base can be constant or can diminish from the center of the ski towards the front and/or towards the back.
According to another embodiment, the height of either of the lateral longitudinal parts of the supplementary element is equal to or higher than the height of the corresponding recesses.
Also note that the base has its own thickness distribution, width, and stiffness.
According to another embodiment, the width of the lateral recesses is longitudinally variable, being wider at the center of the ski, and diminishing towards the front and/or towards the back.
Additionally, the longitudinal parts of the supplementary element includes elongated profiles, the transverse section of which progressively changes in its dimensions and/or in its form.
Thus, the width of the longitudinal lateral part of the supplementary element can be longitudinally variable, being wider at the center of the ski, and diminishing towards the front and/or towards the back.
According to another embodiment, the length of the lateral longitudinal part of the supplementary element is slightly higher than the height of the corresponding recess.
According to another embodiment, the supplementary element has a hollow profile made of composite material and is made through thermoforming or hot forming of a composite material sheet.
According to another embodiment, one base corresponds to a set of several different supplementary elements.
Still further advantages of the present invention will be appreciated to those of ordinary skill in the art upon reading and understanding the following detailed description.
The invention may take form in various components and arrangements of components, and in various steps and arrangements of steps. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention.
FIG. 10′ is a cross-section of a ski, with supplemental elements attached;
a are views analogous to
The ski 1 is an assembly of elongated forms with vertical plane P of general symmetry. A front of the ski is raised to form a tip 8.
The ski 1 is made of a principal part, e.g., a body or base 2 to which at least one supplementary element 4 is affixed, at least in a zone 3 for mounting bindings.
The base 2 is the element in contact with the snow and has the form of an elongated beam with a sliding sole or surface 6 on its lower surface bordered on the edges by lateral metal edges 7a, 7b.
The base 2 is an elongated beam of which the front extremity is raised to constitute the tip 8 of the ski. The base 2 has its own thickness distribution, rib line, width, and stiffness and can be made of all types of materials.
Thus, the elongated beam includes the base 2 which can be made of many types of conceptions, for example, the laminate type, the chamber type, or the core type, or even the type associating the shell and lateral strips, taken alone or in combination, indeed mixed and constituting an assembly of known elements and of components.
FIG. 10′ is a cross-section of a ski associating a shell and lateral strips 20a, 20b.
A supplementary element 4 is meant to stop the bending of the ski and acts as a stiffener.
Thus, according to the preferred embodiment, the supplementary element 4, in the general form of an “H”, includes two longitudinal lateral parts 4a, 4b which spread longitudinally, and which are linked by a transverse connecting part 4c which extends transversely, in a median zone of the supplementary element.
Alternately, the supplementary element 4 could include two transverse connecting parts 4c, 4′c which link the two longitudinal lateral parts 4a, 4b such as illustrated in
The two longitudinal lateral parts 4a, 4b are made by lengthened profiles, whose transverse section tapers in its dimensions and/or in its form.
Like the base 2, each of the lateral longitudinal parts 4a, 4b has its own configuration, structure, thickness distribution, width, and stiffness and can be of all types of construction. Thus, the supplementary element 4, with its two longitudinal lateral parts 4a, 4b can be formed by a solid element made of the same material. But it can be of a different construction, for example, formed by having the form of a tube including an external portion, for example, in composite material, of which the central part could be empty or filled with a filling material, such as synthetic foam, as illustrated in
In a preferred embodiment given as an example, the profile of each of the lateral longitudinal parts 4a, 4b diminishes in width and in thickness in a progressive manner from a central zone 30 towards the front AV and towards the back AR.
According to one characteristic, the base 2 includes lateral recesses or receivers 8a, 8b into each one of the longitudinal lateral parts 4a, 4b is received and affixed. Thus, the base 2 includes a left lateral recess 8a into which is affixed the left lateral longitudinal part 4a and a right lateral recess 8b into which is affixed the right lateral longitudinal part 4b.
Each of the lateral recesses is in a partially complementary shape form to receive the corresponding lateral longitudinal part 4a, 4b.
Specifically, each of the lateral recesses 8a, 8b opens laterally towards the exterior one EX and towards the top HA while it does not open towards the bottom BA. The two lateral recesses 8a, 8b are destined to receive the longitudinal lateral parts 4a, 4b of the supplementary element 4.
Note that, advantageously, the width L1 of the recesses varies longitudinally, becoming wider at the center 30 of the ski 1, and diminishing progressively, towards the front AV or towards the back AR and towards the front AV and towards the back AR.
Similarly, the height H1 of the recess 8a, 8b varies longitudinally, becoming higher at the center of the ski, and diminishing progressively, towards the front AV or towards the back AR, and towards the front AV and towards the back AR.
According to a preferred embodiment, the height H2 of the profile of the two longitudinal lateral parts 4a, 4b is higher than the height H1 of the corresponding recesses 8a, 8b on all or part of the length of the lateral longitudinal parts of the supplementary element. But, according to this preferred embodiment, the height H2 of the profile of the two longitudinal lateral parts 4a, 4b is higher than the height H1 of the corresponding recesses 8a, 8b.
Thus, the general plane P3 of an upper surface 40 of the longitudinal lateral parts 4a, 4b is situated above the plane P1 of an upper surface 110 of a longitudinal rib 11.
The height H2 of the profile of each of the lateral longitudinal parts 4a, 4b of the supplementary element 4 could be equal to the height H1 of the corresponding recesses or receivers 8a, 8b along the whole length of the supplementary element. Thus, the general plane P3 of the upper surface 40 of the lateral longitudinal parts 4a, 4b would be situated in the same general plane P1 as the upper surface 110 of the longitudinal rib 11.
One therefore has to understand that the height H2 of the profile of at least one of the lateral longitudinal parts 4a, 4b of the supplementary element 4 can be equal to or higher than the height H1 of the corresponding recess 8a, 8b.
Besides the width L2 of the lateral longitudinal parts 4a, 4b of the supplementary element 4 varies longitudinally, becoming wider at the center 30 of the ski 1, and diminishing towards the front AV or towards the back AR. While their height H2 varies longitudinally towards the front AV and towards the back AR to be more prominent at the center 30 of the ski and diminish towards the front AV and towards the back AR.
One will add that the height H, the thickness of the ski 1, i.e., the height of the base 2 plus the height of the lateral longitudinal parts 4a, 4b is equal to the distance between the upper surface 40 of the lateral longitudinal parts 4a, 4b and the lower sliding surface 6. Thus, the height H corresponds to the thickness of the ski 1 at the level of the longitudinal lateral parts 4a, 4b which is equal to the height H2 of the aforementioned parts plus the thickness H3 of the lateral edge 20 of the base 2.
One will note that the height H is variable and progressively diminishes towards the front AV or towards the rear AR, and towards the front AF and towards the back AR.
The height variation H can be obtained in different manners, such as:
By way of example, one will note that the overall length L4 of the supplementary element 4 and notably of its lateral longitudinal parts 4a, 4b can exted to all or part of the length of the base. It can be, for example, equal to or longer than 30% of the length L of the base 2, for example, being between 30% and 90%. Thus, the length L4 of the supplementary element can be of, for example, a length between 50 and 150 centimeters for a ski with a length of 170 centimeters.
Note that the two longitudinal parts 4a, 4b of the supplementary element 4 can have the same length or can have different lengths. Thus, the length of one of the longitudinal parts 4a or 4b can be longer than the other longitudinal part 4b or 4a.
The form of the transverse section of each of the elements can be as illustrated, but can also be round, square, rectangular, or the like. Also, note that the form of the section can vary longitudinally.
According to a supplementary characteristic, the base 2 can correspond to an ensemble of several supplementary elements 4, 4′, 4″.
Thus, a given base 2 can correspond to several supplementary elements of different lengths L4, L′4, L″4 and, for example, three supplementary elements of different lengths, such as illustrated in
The affixing of the supplementary element 4 onto the base 2 is done by putting it in place and affixing into the corresponding recess 8a, 8b. This joint may be made, for example, by gluing or welding. This joint 9 can be done on the whole surface of the supplementary element 4 with the recess, as is illustrated in
One could see that the joining of the supplementary element 4 to the base 2 can be done mechanically as, for example, by embedding a projection 15 into corresponding holes 16, such as shown in
The transverse part of the connector 4c also can serve as a platform on which the bindings 90a, 90b are to be mounted and are then be of sufficient length.
Instead of attaching the bindings 90a, 90b, the previously described clamps or stirrups can be attached to the longitudinal lateral parts 4a, 4b of the supplementary element 4 or onto the base 2.
Adding that as the ski 1 can be such that the left lateral longitudinal part 4a is different than the right lateral longitudinal part 4b in length, as was already said, but also in its section, its transverse dimensions, its construction characteristics, and even its technical characteristics.
It is obvious that the previously mentioned variations can advantageously be progressive. But, it is obvious that the variations can be realized in successive steps, with or without discontinuities.
The upper surface 40 of one of the lateral longitudinal parts is not necessarily the same height as the upper surface 40 of the other lateral longitudinal part.
According to the embodiment previously described, the two hollow lateral receivers 8a, 8b extend longitudinally and opens towards the top and laterally to constitute two lateral recesses. But, it can be otherwise without leaving the realm of the invention. In fact, these two lateral receivers destined to receive the longitudinal lateral parts of the supplementary element could be two lateral grooves such as illustrated in
The supplementary element forms the stiffener for the base 2 and can, as we said previously, be made in sheets or layers of composite material.
Also, note as the transverse connecting part 4c, according to the illustrations given in the examples, can attach to the surface 110 of the central rib 11. But, it can be otherwise, as for example, it can be lodged in a transverse groove in the longitudinal rib 11 of the base.
The invention has been described with reference to the preferred embodiments. Modifications and alterations may occur to others upon reading and understanding the preceding detailed description. It is intended that the invention be constructed as including all such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.
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