EP3845086A1 - Secure ski boot and manufacturing method - Google Patents

Abstract

Sliding sports shoe element comprising a wall made of plastic material, characterized in that it comprises at least one safety insert (20) comprising an electronic chip (25) fully or partially integrated in a zone (10) of said wall made of plastic material.

Description

Technical field of the invention

The invention relates to a sports shoe for gliding, in particular for skiing, designed to reduce the risk of theft. It also relates to a method of manufacturing such a ski boot.

State of the art

A ski boot requires significant rigidity as an intermediary between the skier and the ski. For this purpose, ski boots are generally provided with a rigid shell. The shell consists of a lower shell enveloping the foot and a collar enveloping the lower part of the leg. The lower shell and the collar are generally held together by means of an articulation around a transverse axis passing at the level of the ankle. The collar is locked to the bottom of the shell when skiing so as to allow optimal transmission of the skier's forces, thus making it possible to guide the ski with precision. A ski boot thus forms a functional component which plays an essential role in the performance of a skier. It appeared that in the field of competition, where ski boots have the most elaborate and efficient technical structures, there is a risk of theft of these boots. In addition, the identity of certain ski boots, such as their brand, is sometimes concealed, for example for reasons of a commercial contract. For these reasons, there is a need for a solution making it possible to reduce these risks associated with ski boots.

Object of the invention

A general object of the invention is therefore to provide a solution for a ski boot, making it possible to reduce the risks of theft and / or misappropriation of identity, mentioned above.

To this end, the invention relates to an element of a sliding sports shoe comprising a wall made of plastic material, characterized in that it comprises at least one electronic chip or a security insert comprising an electronic chip, said electronic chip or said safety insert being fully or partially integrated in a zone of said wall made of plastic material.

The invention is more precisely defined by the claims.

Brief description of the drawings

• La figure 1 est une vue schématique de côté d'une chaussure de ski selon un mode de réalisation de l'invention.
• La figure 2 est une vue en perspective éclatée d'un insert de sécurité d'un bas de coque de la chaussure de ski selon le mode de réalisation de l'invention.
• La figure 3 est une vue de côté du bas de coque de la chaussure de ski selon le mode de réalisation de l'invention.
• La figure 4 est une vue schématique de la mise en œuvre d'une première étape d'identification de la chaussure de ski selon le mode de réalisation de l'invention.
• La figure 5 est une vue schématique de la mise en œuvre d'une deuxième étape d'identification de la chaussure de ski selon le mode de réalisation de l'invention.
• La figure 6 représente schématiquement les étapes d'un procédé de fabrication de la chaussure de ski selon le mode de réalisation de l'invention.

These objects, characteristics and advantages of the present invention will be explained in detail in the following description of a particular embodiment made without limitation in relation to the accompanying figures, among which:

• The figure 1 is a schematic side view of a ski boot according to one embodiment of the invention.
• The figure 2 is an exploded perspective view of a safety insert of a bottom shell of the ski boot according to the embodiment of the invention.
• The figure 3 is a side view of the bottom shell of the ski boot according to the embodiment of the invention.
• The figure 4 is a schematic view of the implementation of a first step for identifying the ski boot according to the embodiment of the invention.
• The figure 5 is a schematic view of the implementation of a second step for identifying the ski boot according to the embodiment of the invention.
• The figure 6 schematically represents the steps of a method of manufacturing the ski boot according to the embodiment of the invention.

Description of preferred embodiments of the invention

According to the invention, a ski boot incorporates a safety insert in a wall, advantageously a wall made of plastic material, and preferably a rigid wall, so as to allow its identification. Such a security insert thus makes it possible to reduce the risk of theft, and then forms an anti-theft element. It also makes it possible to identify the ski boot, which makes it possible to recognize it despite possible transformations, in particular to conceal its mark. A particular shoe from a series of shoes which are identical, or very similar in shape and color, for example differing only by a different material, can also be identified. Such a security insert comprises an electronic chip provided with a contactless communication device, for example implementing the RFID standard (acronym of the English term "Radio Frequency Identification ”) or the NFC standard (abbreviation of the English term“ Near Field Communication ”).

The figure 1 illustrates an alpine ski boot 1 according to one embodiment of the invention, which comprises a rigid outer shell comprising in particular two elements, in particular a collar 2 articulated on a bottom of the shell 3 around an articulation axis 4. The bottom of the shell 3 extends from the sole 6 up to the level of the articulation axis 4 and of connection with the collar 2 in the vertical direction. A comfort liner 5 is further inserted into the rigid outer shell. The sole 6 is extended towards its two front and rear ends by sidewalks 7 of a format suitable for cooperation with the jaws of a ski boot binding device.

The bottom of the shell 3, particularly visible on figures 3 to 5 , has an overall shape intended to surround the foot of a skier. The bottom shell 3 is in one piece, in other words it does not include several distinct parts. As a variant, the bottom of the shell can be formed from several parts, possibly made of different materials. However, these different parts are fixed with respect to each other. According to the invention, the bottom shell 3 comprises a sole 6 and a rigid casing 13 in the form of a one-piece assembly, for example coming from the same plastic injection step. The envelope 13 surrounds the skier's foot. As a variant, the casing 13 can be fixed to the sole 6, for example by screwing or gluing. The envelope 13 extends upwards generally to the level of the skier's ankle. As a variant, the envelope 13 can go up beyond the ankle of the skier. The envelope 13 comprises an opening 11 in the upper part, allowing the insertion of a skier's foot (by means of an inserted liner). It also comprises an articulation zone 14 provided for mounting an articulated collar.

The envelope 13 can be made from one and the same part. The envelope is preferably made of a plastic material and may be formed from a partition of generally uniform thickness all around the skier's foot. In a variant, the envelope 13 can be formed of several materials, possibly with different mechanical properties, such as plastic materials, such as for example polyurethane, polypropylene, or polyamide, and even composite materials with fibers, for example. of carbon or of glass, and with a resin, in particular thermoplastic. The rigidity of the envelope is a compromise between an envelope sufficiently rigid to transmit the forces of the foot to the ski and ensure correct guiding of the ski, and an envelope sufficiently flexible to facilitate the insertion of the foot and the fitting, and allow tightening. fitted over the top of the foot. In all cases, the wall of the casing 13 is said to be rigid, in comparison with the rigidity of the usual shoes. It has a certain flexibility but overall very little deformation. It has over all or part of its surface a rigidity greater than or equal to that of a polyurethane of hardness 40 Shore D. It also has a relatively large thickness, which can be in the range of 1 to 20 mm.

According to the embodiment, the bottom of the shell 3 incorporates a safety insert 20, shown in figure 2 , in its rear wall, in a thicker area of its wall, about halfway up. The insert is positioned in an area which extends opposite the heel and Achilles tendon of a skier. This security insert 20 comprises an electronic chip 25, housed in a protective housing 21 closed by a cover 22. The electronic chip 25 is thus protected, inside the safety insert. A housing 24 can be made in the box for receiving the chip. On the other hand, the safety insert, in particular the casing, is totally or almost totally integrated inside the bottom wall of the shell, that is to say it is covered over the entire its outer surface of the material forming the bottom wall of the shell, or even over at least 75% of its outer surface. Optionally, the protective housing 21 forms part of the outer surface of the wall of the ski boot element. In such a case, it is preferably the same color as the neighboring wall of the bottom shell 3, to make it visually undetectable.

According to the embodiment, the protective case has a cylindrical shape. Its diameter can be between 5 and 20 mm approximately. As a variant, it could have any other unspecified volume shape, for example parallelepipedal. It could also be in the form of a tongue or a plate of reduced thickness, for example of thickness between 2 and 6 mm. In addition, the electronic chip could be integrated directly into such a case or such a wafer during its manufacture, which would then appear without a cover. A case in the form of a plate (or wafer) could thus be easily integrated into an injection mold, with a hold provided by its shape alone.

In addition, advantageously, the connection between the safety insert 20 and the wall of the lower shell in said zone 10 is such that the protective housing 21 and the cover 22 are welded to the material surrounding the lower shell 3. There is thus has continuity between the bottom wall of the shell and the safety insert, which is fixed in a predefined position, without any possible mobility.

Advantageously, the safety insert 20 is positioned in the thickness of the wall of the lower shell 3 such that the cover 22 is positioned on the inside of the wall, that is to say towards the surface. interior of this wall, on the side of a skier's foot, and the bottom of the housing 21, opposite the cover 22, is positioned on the contrary towards the exterior surface of the wall of the bottom of the shell 3. As a variant, the insert could be arranged in the opposite direction, or in any other orientation.

The electronic chip 25 is in the form of an electronic component arranged on a sticker, which is fixed in a housing inside the housing 21. As a variant, as mentioned above, the electronic chip 25 may be in any other form. shape and / or with any other packaging, such as its integration into a tab or plate, for example. As a further variant, the electronic chip could be integrated directly into the shoe wall, without a housing. This electronic chip 25 comprises an electronic memory, on which for example an identifier of the ski boot is stored. Optionally, other information can be stored in this electronic memory, such as the name of the owner of the ski boot, and / or data related to the boot itself, such as its dimensions, its material, its year of manufacture. manufacturing, etc. The electronic chip is also equipped with a contactless communication device, for example of the NFC type, which allows it to communicate the aforementioned information stored in its electronic memory during a request by an external reader itself equipped with a contactless communication device, so as to interrogate the electronic chip 25 through the wall of the ski boot.

According to this embodiment, the security insert 20 further comprises a second security element 29, in the form of at least part of the housing 21 of the security insert comprising a photosensitive material. Preferably, this photosensitive material can be positioned so as to draw a chosen design, for example the mark or a logo of the ski boot. Naturally, this second security element 29 is optional.

The figures 4 and 5 represent the bottom of the shell according to the embodiment in rear view, in two distinct phases of verifying the identity of the ski boot from the safety insert 20. As a note, this safety insert is invisible to the eye. 'naked eye due to its positioning inside the bottom shell wall, as shown in area 10 of the bottom shell on the figure 4 . This architecture not only makes it possible to protect it, but also to complicate any operation which would aim to neutralize it, since its location is difficult. As shown on the figure 4 , an operator can approach a contactless reader 30 of the bottom of the shell 3, for example a mobile phone equipped with an NFC communication device, at a sufficiently close distance to make communication possible 35 with the electronic chip 25 of the insert security 20. When communication is established, said electronic chip transmits its stored data, in particular for example an identifier, which can be recognized and processed by an application of the mobile telephone, and possibly displayed on its screen, allowing the operator to '' identify the bottom of the shell, and therefore the ski boot. The electronic chip can also send the phone to a predetermined website.

The figure 5 illustrates a second step of highlighting the second security element 29. For this, the operator illuminates the lower shell with a UV lamp 31. The photosensitive material then appears under this suitable lighting 36, allowing its visual recognition and identification. .

Of course, the invention is not limited to the embodiment described. The safety insert could thus be positioned in another area of the bottom of the shell. It could also be positioned on another shoe element, such as on the collar. However, as was recalled above, the ski boot is subjected to high mechanical stresses. The safety insert is thus advantageously positioned in a zone of the rigid wall of the ski boot which does not work or does little mechanically during skiing. For this purpose, the rear wall is advantageous, as shown. As a variant, the sole could be chosen. The safety insert could thus be positioned at the rear of the sole, at the level of the side walls of the sole, but also simply embedded in any area in the wall of the sole, facing the user's foot. In addition, the electronic chip could be integrated into the ski boot in a different way. For example, it might not be encapsulated in a case. As a further variant, a ski boot element could comprise several safety inserts, which may or may not be identical, for example two or three. A ski boot could also include safety inserts in several distinct elements, for example the bottom of the shell and the collar, or even the liner. In addition, a pair of ski boots could include at least one safety insert in a single ski boot or in both right and left ski boots. As mentioned earlier, the security insert could be reduced to the electronic chip, without a housing.

The invention also relates to a method of manufacturing a ski boot element as described above. Such a method advantageously comprises a step consisting in positioning at least one safety insert 20 comprising an electronic chip 25, or simply an electronic chip alone, in a mold for manufacturing the ski boot element, then an injection step. of a rigid plastic material in the mold so that the at least one safety insert 20 is fully or partially integrated within the wall of the ski boot element formed by said injected plastic material.

The figure 6 schematically shows in more detail several steps of a method of manufacturing a ski boot according to one embodiment of the invention.

According to a first step E1, a protective case 21 for a safety insert 20 is manufactured. This protective case 21 can be manufactured by injecting a plastic material into a mold. According to one embodiment, the plastic material of the protective case 21 is the same as that of the shoe element in which it is intended to be integrated. The advantage of this material is that the successive over-injection of plastic material during the step of manufacturing the shoe element, which will be explained below, induces a significant adhesion between the two elements, a welding of their materials. which are by nature compatible. Alternatively, any other compatible plastic material could be used. The protective case 21 can be integrally formed from a single material, possibly photosensitive. According to an alternative embodiment, the protective case 21 is formed by the bi-injection of two different materials, of which at least one material is photosensitive and intended to form a second security element 29, as described previously. This photosensitive material can be arranged so as to form a particular predefined design, such as the mark of the shoe element. Preferably, this photosensitive material is positioned at least on a part of the protective case 21 intended to be located near the outer surface of the ski boot element or directly on this outer surface, to facilitate its visual identification. by suitable lighting. As a variant, it could be present in a zone 10 of the wall of the shoe element comprising a material sufficiently transparent or translucent for its visualization even through a thickness of this transparent or translucent material.

As a note, the protective case 21 is manufactured with a support portion 23 intended to guarantee its correct positioning in the mold, and for the handling of said protective case 21, before being removed, as will be detailed below. In this first step E1, a cover 22, not shown, can likewise be manufactured by injection of plastic material. Then, this first step E1 can comprise a sub-step of positioning an electronic chip 25 within the protective case 21, which comprises a housing provided for this purpose, before it is closed by the cover 22, to finalize the insert. security 20. The electronic chip 25 is thus completely encapsulated and protected from any future deterioration.

In a second step E2, the safety insert 20 is positioned within a mold 40 for manufacturing the ski boot element. The support portion 23 serves to hold the safety insert properly in the mold. Then, the shoe element is formed by injecting one or more plastic materials into the mold 40. In this injection step, all or part of the protective case 21 and therefore of the insert of safety 20 is finally trapped in the injected plastic material forming the wall of the shoe element.

In a third step E3, the resulting shoe element, here a shell bottom 3, is removed from the mold.

In a fourth step E4, the support portion 23 of the safety insert 20 which protrudes outside the wall of the shoe element is cut, for example by a machining step, making it possible to obtain a continuous wall of the bottom of the shell 3. It therefore appears here that the safety insert forms part of the outer surface of the ski boot element, at this section. As a variant, the safety insert could be fully integrated inside the wall. In such a case, this fourth step E4 would not be necessary.

The method may further comprise an optional finishing step, comprising for example a sanding of the surface of the lower shell 3, in order to obtain a sufficiently smooth surface condition.

The manufacturing process can include an optional subsequent customization step, consisting in modifying the internal volume of the bottom of the shell to adapt it to the foot of a particular skier. For this, the inner surface of the wall of the shoe element can be machined, for example by milling. In such a case, the boot element is formed according to a size slightly smaller than that of the user, before being widened as closely as possible to the exact shape of the foot of the skier concerned. Such a step presents the risk of damaging the safety insert 20, if the milling approaches the zone 10 of the wall in which it is present. For this purpose, the safety insert 20 preferably does not come up to the inner surface of the shoe element. ski. In other words, the safety insert 20 is preferably covered by a certain thickness of the wall of the ski boot element, on the side of the inner surface of this wall. According to an alternative embodiment, the surface of the safety insert intended to be oriented towards the inside of the shoe element, for example the cover 22, has a different color from the wall of the shoe element. Thus, during a milling step inside the wall to personalize the ski boot element, the operator quickly sees the cover 22 because of its different color if it reaches the safety insert by continuing machining too heavily. He can thus stop his intervention before damaging the electronic chip 25.

The invention has been described in the context of a ski boot, but could be adapted to any rigid shoe of a sliding sport.

Claims (16)

Sliding sports shoe element comprising a wall made of plastic material, characterized in that it comprises at least one electronic chip (25) fully or partially integrated in a zone (10) of said wall made of plastic material. Sliding sports shoe element according to the preceding claim, characterized in that the zone (10) of said wall comprises a rigid plastic material, of rigidity greater than or equal to that of a polyurethane of hardness 40 Shore D. Sliding sport shoe element according to one of the preceding claims, characterized in that said electronic chip (25) comprises an electronic memory storing at least one identifier of the ski boot element and comprises a contactless communication device , in particular of the RFID or NFC type. Sliding sports shoe element according to one of the preceding claims, characterized in that said electronic chip (25) is housed in a safety insert (20). Sliding sports shoe element according to the preceding claim, characterized in that the at least one safety insert (20) comprises a closed protective housing (21) in which the electronic chip (25) is housed. Sliding sports shoe element according to the preceding claim, characterized in that the closed protective housing (21) comprises a material identical to a material of said zone (10) of the wall of the ski boot element. Sliding sports shoe element according to Claim 5 or 6, characterized in that the protective housing (21) is completely surrounded by the material of the region (10) of the wall of the ski boot element or is partially surrounded by the material of the area (10) of the wall of the ski boot element and forms part of the outer surface of the wall of the ski boot element. Sliding sports shoe element according to one of claims 5 to 7, characterized in that the protective case (21) comprises a photosensitive material capable of being highlighted by suitable lighting to form a second safety element ( 29). Sliding sports shoe element according to the preceding claim, characterized in that the protective housing (21) comprises several different materials, so that the photosensitive material shows a predefined pattern under suitable lighting. Sliding sports shoe element according to one of claims 5 to 9, characterized in that the protective housing (21) comprises a surface oriented towards the inside of the wall of the ski boot element, in particular a cover (22) of the protective housing (21), having a different color from that of the zone (10) at the level of the inner surface of the wall of the ski boot element. Sliding sport shoe element according to one of the preceding claims, characterized in that it is a bottom shell (3) of a ski boot, and in that the at least one electronic chip (25) is positioned in its rear wall or in its sole. Sliding sports shoe, in particular for skiing, characterized in that it comprises at least one ski boot element according to one of the preceding claims. Method of manufacturing a sliding sports shoe element, characterized in that it comprises a step consisting in positioning (E2) at least one electronic chip (25) or at least one safety insert (20) comprising a chip electronics (25) in a mold for manufacturing the ski boot element, then a step of injecting a rigid plastic material into the mold so that the at least one safety insert (20) is fully integrated or partially within the wall of the ski boot element formed by said injected plastic material. A method of manufacturing a sliding sport shoe element according to the preceding claim, characterized in that it comprises a first step (E1) of manufacturing a closed protective casing (21), a step of inserting the electronic chip (25) in said protective housing, to form a security insert (20), before the step of positioning (E2) the security insert security (20) in a mold for manufacturing the ski boot element. A method of manufacturing a sliding sport shoe element according to the preceding claim, characterized in that it comprises a machining step (E4) for removing a support portion (23) of at least one safety insert ( 20) which protrudes outside the wall of the boot element after its release from the mold, making it possible to obtain a continuous outer surface of the wall of the ski boot element. A method of manufacturing a sliding sport shoe element according to one of claims 13 to 15, characterized in that it comprises a step of machining the inner surface of the ski boot element for customization. at the foot of a particular skier.

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